From 317c0644ccf108aa23ef3fd8358bd66c2840bfc0 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 14 Apr 2024 15:40:54 +0200 Subject: Adding upstream version 5:7.2.4. Signed-off-by: Daniel Baumann --- src/quicklist.c | 3257 +++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 3257 insertions(+) create mode 100644 src/quicklist.c (limited to 'src/quicklist.c') diff --git a/src/quicklist.c b/src/quicklist.c new file mode 100644 index 0000000..301a216 --- /dev/null +++ b/src/quicklist.c @@ -0,0 +1,3257 @@ +/* quicklist.c - A doubly linked list of listpacks + * + * Copyright (c) 2014, Matt Stancliff + * All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are met: + * + * * Redistributions of source code must start the above copyright notice, + * this quicklist of conditions and the following disclaimer. + * * Redistributions in binary form must reproduce the above copyright + * notice, this quicklist of conditions and the following disclaimer in the + * documentation and/or other materials provided with the distribution. + * * Neither the name of Redis nor the names of its contributors may be used + * to endorse or promote products derived from this software without + * specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" + * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE + * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE + * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE + * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR + * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF + * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) + * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + * POSSIBILITY OF SUCH DAMAGE. + */ + +#include +#include /* for memcpy */ +#include +#include "quicklist.h" +#include "zmalloc.h" +#include "config.h" +#include "listpack.h" +#include "util.h" /* for ll2string */ +#include "lzf.h" +#include "redisassert.h" + +#ifndef REDIS_STATIC +#define REDIS_STATIC static +#endif + +/* Optimization levels for size-based filling. + * Note that the largest possible limit is 64k, so even if each record takes + * just one byte, it still won't overflow the 16 bit count field. */ +static const size_t optimization_level[] = {4096, 8192, 16384, 32768, 65536}; + +/* packed_threshold is initialized to 1gb*/ +static size_t packed_threshold = (1 << 30); + +/* set threshold for PLAIN nodes, the real limit is 4gb */ +#define isLargeElement(size) ((size) >= packed_threshold) + +int quicklistisSetPackedThreshold(size_t sz) { + /* Don't allow threshold to be set above or even slightly below 4GB */ + if (sz > (1ull<<32) - (1<<20)) { + return 0; + } else if (sz == 0) { /* 0 means restore threshold */ + sz = (1 << 30); + } + packed_threshold = sz; + return 1; +} + +/* Maximum size in bytes of any multi-element listpack. + * Larger values will live in their own isolated listpacks. + * This is used only if we're limited by record count. when we're limited by + * size, the maximum limit is bigger, but still safe. + * 8k is a recommended / default size limit */ +#define SIZE_SAFETY_LIMIT 8192 + +/* Maximum estimate of the listpack entry overhead. + * Although in the worst case(sz < 64), we will waste 6 bytes in one + * quicklistNode, but can avoid memory waste due to internal fragmentation + * when the listpack exceeds the size limit by a few bytes (e.g. being 16388). */ +#define SIZE_ESTIMATE_OVERHEAD 8 + +/* Minimum listpack size in bytes for attempting compression. */ +#define MIN_COMPRESS_BYTES 48 + +/* Minimum size reduction in bytes to store compressed quicklistNode data. + * This also prevents us from storing compression if the compression + * resulted in a larger size than the original data. */ +#define MIN_COMPRESS_IMPROVE 8 + +/* If not verbose testing, remove all debug printing. */ +#ifndef REDIS_TEST_VERBOSE +#define D(...) +#else +#define D(...) \ + do { \ + printf("%s:%s:%d:\t", __FILE__, __func__, __LINE__); \ + printf(__VA_ARGS__); \ + printf("\n"); \ + } while (0) +#endif + +/* Bookmarks forward declarations */ +#define QL_MAX_BM ((1 << QL_BM_BITS)-1) +quicklistBookmark *_quicklistBookmarkFindByName(quicklist *ql, const char *name); +quicklistBookmark *_quicklistBookmarkFindByNode(quicklist *ql, quicklistNode *node); +void _quicklistBookmarkDelete(quicklist *ql, quicklistBookmark *bm); + +/* Simple way to give quicklistEntry structs default values with one call. */ +#define initEntry(e) \ + do { \ + (e)->zi = (e)->value = NULL; \ + (e)->longval = -123456789; \ + (e)->quicklist = NULL; \ + (e)->node = NULL; \ + (e)->offset = 123456789; \ + (e)->sz = 0; \ + } while (0) + +/* Reset the quicklistIter to prevent it from being used again after + * insert, replace, or other against quicklist operation. */ +#define resetIterator(iter) \ + do { \ + (iter)->current = NULL; \ + (iter)->zi = NULL; \ + } while (0) + +/* Create a new quicklist. + * Free with quicklistRelease(). */ +quicklist *quicklistCreate(void) { + struct quicklist *quicklist; + + quicklist = zmalloc(sizeof(*quicklist)); + quicklist->head = quicklist->tail = NULL; + quicklist->len = 0; + quicklist->count = 0; + quicklist->compress = 0; + quicklist->fill = -2; + quicklist->bookmark_count = 0; + return quicklist; +} + +#define COMPRESS_MAX ((1 << QL_COMP_BITS)-1) +void quicklistSetCompressDepth(quicklist *quicklist, int compress) { + if (compress > COMPRESS_MAX) { + compress = COMPRESS_MAX; + } else if (compress < 0) { + compress = 0; + } + quicklist->compress = compress; +} + +#define FILL_MAX ((1 << (QL_FILL_BITS-1))-1) +void quicklistSetFill(quicklist *quicklist, int fill) { + if (fill > FILL_MAX) { + fill = FILL_MAX; + } else if (fill < -5) { + fill = -5; + } + quicklist->fill = fill; +} + +void quicklistSetOptions(quicklist *quicklist, int fill, int depth) { + quicklistSetFill(quicklist, fill); + quicklistSetCompressDepth(quicklist, depth); +} + +/* Create a new quicklist with some default parameters. */ +quicklist *quicklistNew(int fill, int compress) { + quicklist *quicklist = quicklistCreate(); + quicklistSetOptions(quicklist, fill, compress); + return quicklist; +} + +REDIS_STATIC quicklistNode *quicklistCreateNode(void) { + quicklistNode *node; + node = zmalloc(sizeof(*node)); + node->entry = NULL; + node->count = 0; + node->sz = 0; + node->next = node->prev = NULL; + node->encoding = QUICKLIST_NODE_ENCODING_RAW; + node->container = QUICKLIST_NODE_CONTAINER_PACKED; + node->recompress = 0; + node->dont_compress = 0; + return node; +} + +/* Return cached quicklist count */ +unsigned long quicklistCount(const quicklist *ql) { return ql->count; } + +/* Free entire quicklist. */ +void quicklistRelease(quicklist *quicklist) { + unsigned long len; + quicklistNode *current, *next; + + current = quicklist->head; + len = quicklist->len; + while (len--) { + next = current->next; + + zfree(current->entry); + quicklist->count -= current->count; + + zfree(current); + + quicklist->len--; + current = next; + } + quicklistBookmarksClear(quicklist); + zfree(quicklist); +} + +/* Compress the listpack in 'node' and update encoding details. + * Returns 1 if listpack compressed successfully. + * Returns 0 if compression failed or if listpack too small to compress. */ +REDIS_STATIC int __quicklistCompressNode(quicklistNode *node) { +#ifdef REDIS_TEST + node->attempted_compress = 1; +#endif + if (node->dont_compress) return 0; + + /* validate that the node is neither + * tail nor head (it has prev and next)*/ + assert(node->prev && node->next); + + node->recompress = 0; + /* Don't bother compressing small values */ + if (node->sz < MIN_COMPRESS_BYTES) + return 0; + + quicklistLZF *lzf = zmalloc(sizeof(*lzf) + node->sz); + + /* Cancel if compression fails or doesn't compress small enough */ + if (((lzf->sz = lzf_compress(node->entry, node->sz, lzf->compressed, + node->sz)) == 0) || + lzf->sz + MIN_COMPRESS_IMPROVE >= node->sz) { + /* lzf_compress aborts/rejects compression if value not compressible. */ + zfree(lzf); + return 0; + } + lzf = zrealloc(lzf, sizeof(*lzf) + lzf->sz); + zfree(node->entry); + node->entry = (unsigned char *)lzf; + node->encoding = QUICKLIST_NODE_ENCODING_LZF; + return 1; +} + +/* Compress only uncompressed nodes. */ +#define quicklistCompressNode(_node) \ + do { \ + if ((_node) && (_node)->encoding == QUICKLIST_NODE_ENCODING_RAW) { \ + __quicklistCompressNode((_node)); \ + } \ + } while (0) + +/* Uncompress the listpack in 'node' and update encoding details. + * Returns 1 on successful decode, 0 on failure to decode. */ +REDIS_STATIC int __quicklistDecompressNode(quicklistNode *node) { +#ifdef REDIS_TEST + node->attempted_compress = 0; +#endif + node->recompress = 0; + + void *decompressed = zmalloc(node->sz); + quicklistLZF *lzf = (quicklistLZF *)node->entry; + if (lzf_decompress(lzf->compressed, lzf->sz, decompressed, node->sz) == 0) { + /* Someone requested decompress, but we can't decompress. Not good. */ + zfree(decompressed); + return 0; + } + zfree(lzf); + node->entry = decompressed; + node->encoding = QUICKLIST_NODE_ENCODING_RAW; + return 1; +} + +/* Decompress only compressed nodes. */ +#define quicklistDecompressNode(_node) \ + do { \ + if ((_node) && (_node)->encoding == QUICKLIST_NODE_ENCODING_LZF) { \ + __quicklistDecompressNode((_node)); \ + } \ + } while (0) + +/* Force node to not be immediately re-compressible */ +#define quicklistDecompressNodeForUse(_node) \ + do { \ + if ((_node) && (_node)->encoding == QUICKLIST_NODE_ENCODING_LZF) { \ + __quicklistDecompressNode((_node)); \ + (_node)->recompress = 1; \ + } \ + } while (0) + +/* Extract the raw LZF data from this quicklistNode. + * Pointer to LZF data is assigned to '*data'. + * Return value is the length of compressed LZF data. */ +size_t quicklistGetLzf(const quicklistNode *node, void **data) { + quicklistLZF *lzf = (quicklistLZF *)node->entry; + *data = lzf->compressed; + return lzf->sz; +} + +#define quicklistAllowsCompression(_ql) ((_ql)->compress != 0) + +/* Force 'quicklist' to meet compression guidelines set by compress depth. + * The only way to guarantee interior nodes get compressed is to iterate + * to our "interior" compress depth then compress the next node we find. + * If compress depth is larger than the entire list, we return immediately. */ +REDIS_STATIC void __quicklistCompress(const quicklist *quicklist, + quicklistNode *node) { + if (quicklist->len == 0) return; + + /* The head and tail should never be compressed (we should not attempt to recompress them) */ + assert(quicklist->head->recompress == 0 && quicklist->tail->recompress == 0); + + /* If length is less than our compress depth (from both sides), + * we can't compress anything. */ + if (!quicklistAllowsCompression(quicklist) || + quicklist->len < (unsigned int)(quicklist->compress * 2)) + return; + +#if 0 + /* Optimized cases for small depth counts */ + if (quicklist->compress == 1) { + quicklistNode *h = quicklist->head, *t = quicklist->tail; + quicklistDecompressNode(h); + quicklistDecompressNode(t); + if (h != node && t != node) + quicklistCompressNode(node); + return; + } else if (quicklist->compress == 2) { + quicklistNode *h = quicklist->head, *hn = h->next, *hnn = hn->next; + quicklistNode *t = quicklist->tail, *tp = t->prev, *tpp = tp->prev; + quicklistDecompressNode(h); + quicklistDecompressNode(hn); + quicklistDecompressNode(t); + quicklistDecompressNode(tp); + if (h != node && hn != node && t != node && tp != node) { + quicklistCompressNode(node); + } + if (hnn != t) { + quicklistCompressNode(hnn); + } + if (tpp != h) { + quicklistCompressNode(tpp); + } + return; + } +#endif + + /* Iterate until we reach compress depth for both sides of the list.a + * Note: because we do length checks at the *top* of this function, + * we can skip explicit null checks below. Everything exists. */ + quicklistNode *forward = quicklist->head; + quicklistNode *reverse = quicklist->tail; + int depth = 0; + int in_depth = 0; + while (depth++ < quicklist->compress) { + quicklistDecompressNode(forward); + quicklistDecompressNode(reverse); + + if (forward == node || reverse == node) + in_depth = 1; + + /* We passed into compress depth of opposite side of the quicklist + * so there's no need to compress anything and we can exit. */ + if (forward == reverse || forward->next == reverse) + return; + + forward = forward->next; + reverse = reverse->prev; + } + + if (!in_depth) + quicklistCompressNode(node); + + /* At this point, forward and reverse are one node beyond depth */ + quicklistCompressNode(forward); + quicklistCompressNode(reverse); +} + +#define quicklistCompress(_ql, _node) \ + do { \ + if ((_node)->recompress) \ + quicklistCompressNode((_node)); \ + else \ + __quicklistCompress((_ql), (_node)); \ + } while (0) + +/* If we previously used quicklistDecompressNodeForUse(), just recompress. */ +#define quicklistRecompressOnly(_node) \ + do { \ + if ((_node)->recompress) \ + quicklistCompressNode((_node)); \ + } while (0) + +/* Insert 'new_node' after 'old_node' if 'after' is 1. + * Insert 'new_node' before 'old_node' if 'after' is 0. + * Note: 'new_node' is *always* uncompressed, so if we assign it to + * head or tail, we do not need to uncompress it. */ +REDIS_STATIC void __quicklistInsertNode(quicklist *quicklist, + quicklistNode *old_node, + quicklistNode *new_node, int after) { + if (after) { + new_node->prev = old_node; + if (old_node) { + new_node->next = old_node->next; + if (old_node->next) + old_node->next->prev = new_node; + old_node->next = new_node; + } + if (quicklist->tail == old_node) + quicklist->tail = new_node; + } else { + new_node->next = old_node; + if (old_node) { + new_node->prev = old_node->prev; + if (old_node->prev) + old_node->prev->next = new_node; + old_node->prev = new_node; + } + if (quicklist->head == old_node) + quicklist->head = new_node; + } + /* If this insert creates the only element so far, initialize head/tail. */ + if (quicklist->len == 0) { + quicklist->head = quicklist->tail = new_node; + } + + /* Update len first, so in __quicklistCompress we know exactly len */ + quicklist->len++; + + if (old_node) + quicklistCompress(quicklist, old_node); + + quicklistCompress(quicklist, new_node); +} + +/* Wrappers for node inserting around existing node. */ +REDIS_STATIC void _quicklistInsertNodeBefore(quicklist *quicklist, + quicklistNode *old_node, + quicklistNode *new_node) { + __quicklistInsertNode(quicklist, old_node, new_node, 0); +} + +REDIS_STATIC void _quicklistInsertNodeAfter(quicklist *quicklist, + quicklistNode *old_node, + quicklistNode *new_node) { + __quicklistInsertNode(quicklist, old_node, new_node, 1); +} + +#define sizeMeetsSafetyLimit(sz) ((sz) <= SIZE_SAFETY_LIMIT) + +/* Calculate the size limit or length limit of the quicklist node + * based on 'fill', and is also used to limit list listpack. */ +void quicklistNodeLimit(int fill, size_t *size, unsigned int *count) { + *size = SIZE_MAX; + *count = UINT_MAX; + + if (fill >= 0) { + /* Ensure that one node have at least one entry */ + *count = (fill == 0) ? 1 : fill; + } else { + size_t offset = (-fill) - 1; + size_t max_level = sizeof(optimization_level) / sizeof(*optimization_level); + if (offset >= max_level) offset = max_level - 1; + *size = optimization_level[offset]; + } +} + +/* Check if the limit of the quicklist node has been reached to determine if + * insertions, merges or other operations that would increase the size of + * the node can be performed. + * Return 1 if exceeds the limit, otherwise 0. */ +int quicklistNodeExceedsLimit(int fill, size_t new_sz, unsigned int new_count) { + size_t sz_limit; + unsigned int count_limit; + quicklistNodeLimit(fill, &sz_limit, &count_limit); + + if (likely(sz_limit != SIZE_MAX)) { + return new_sz > sz_limit; + } else if (count_limit != UINT_MAX) { + /* when we reach here we know that the limit is a size limit (which is + * safe, see comments next to optimization_level and SIZE_SAFETY_LIMIT) */ + if (!sizeMeetsSafetyLimit(new_sz)) return 1; + return new_count > count_limit; + } + + redis_unreachable(); +} + +REDIS_STATIC int _quicklistNodeAllowInsert(const quicklistNode *node, + const int fill, const size_t sz) { + if (unlikely(!node)) + return 0; + + if (unlikely(QL_NODE_IS_PLAIN(node) || isLargeElement(sz))) + return 0; + + /* Estimate how many bytes will be added to the listpack by this one entry. + * We prefer an overestimation, which would at worse lead to a few bytes + * below the lowest limit of 4k (see optimization_level). + * Note: No need to check for overflow below since both `node->sz` and + * `sz` are to be less than 1GB after the plain/large element check above. */ + size_t new_sz = node->sz + sz + SIZE_ESTIMATE_OVERHEAD; + if (unlikely(quicklistNodeExceedsLimit(fill, new_sz, node->count + 1))) + return 0; + return 1; +} + +REDIS_STATIC int _quicklistNodeAllowMerge(const quicklistNode *a, + const quicklistNode *b, + const int fill) { + if (!a || !b) + return 0; + + if (unlikely(QL_NODE_IS_PLAIN(a) || QL_NODE_IS_PLAIN(b))) + return 0; + + /* approximate merged listpack size (- 7 to remove one listpack + * header/trailer, see LP_HDR_SIZE and LP_EOF) */ + unsigned int merge_sz = a->sz + b->sz - 7; + if (unlikely(quicklistNodeExceedsLimit(fill, merge_sz, a->count + b->count))) + return 0; + return 1; +} + +#define quicklistNodeUpdateSz(node) \ + do { \ + (node)->sz = lpBytes((node)->entry); \ + } while (0) + +static quicklistNode* __quicklistCreatePlainNode(void *value, size_t sz) { + quicklistNode *new_node = quicklistCreateNode(); + new_node->entry = zmalloc(sz); + new_node->container = QUICKLIST_NODE_CONTAINER_PLAIN; + memcpy(new_node->entry, value, sz); + new_node->sz = sz; + new_node->count++; + return new_node; +} + +static void __quicklistInsertPlainNode(quicklist *quicklist, quicklistNode *old_node, + void *value, size_t sz, int after) { + __quicklistInsertNode(quicklist, old_node, __quicklistCreatePlainNode(value, sz), after); + quicklist->count++; +} + +/* Add new entry to head node of quicklist. + * + * Returns 0 if used existing head. + * Returns 1 if new head created. */ +int quicklistPushHead(quicklist *quicklist, void *value, size_t sz) { + quicklistNode *orig_head = quicklist->head; + + if (unlikely(isLargeElement(sz))) { + __quicklistInsertPlainNode(quicklist, quicklist->head, value, sz, 0); + return 1; + } + + if (likely( + _quicklistNodeAllowInsert(quicklist->head, quicklist->fill, sz))) { + quicklist->head->entry = lpPrepend(quicklist->head->entry, value, sz); + quicklistNodeUpdateSz(quicklist->head); + } else { + quicklistNode *node = quicklistCreateNode(); + node->entry = lpPrepend(lpNew(0), value, sz); + + quicklistNodeUpdateSz(node); + _quicklistInsertNodeBefore(quicklist, quicklist->head, node); + } + quicklist->count++; + quicklist->head->count++; + return (orig_head != quicklist->head); +} + +/* Add new entry to tail node of quicklist. + * + * Returns 0 if used existing tail. + * Returns 1 if new tail created. */ +int quicklistPushTail(quicklist *quicklist, void *value, size_t sz) { + quicklistNode *orig_tail = quicklist->tail; + if (unlikely(isLargeElement(sz))) { + __quicklistInsertPlainNode(quicklist, quicklist->tail, value, sz, 1); + return 1; + } + + if (likely( + _quicklistNodeAllowInsert(quicklist->tail, quicklist->fill, sz))) { + quicklist->tail->entry = lpAppend(quicklist->tail->entry, value, sz); + quicklistNodeUpdateSz(quicklist->tail); + } else { + quicklistNode *node = quicklistCreateNode(); + node->entry = lpAppend(lpNew(0), value, sz); + + quicklistNodeUpdateSz(node); + _quicklistInsertNodeAfter(quicklist, quicklist->tail, node); + } + quicklist->count++; + quicklist->tail->count++; + return (orig_tail != quicklist->tail); +} + +/* Create new node consisting of a pre-formed listpack. + * Used for loading RDBs where entire listpacks have been stored + * to be retrieved later. */ +void quicklistAppendListpack(quicklist *quicklist, unsigned char *zl) { + quicklistNode *node = quicklistCreateNode(); + + node->entry = zl; + node->count = lpLength(node->entry); + node->sz = lpBytes(zl); + + _quicklistInsertNodeAfter(quicklist, quicklist->tail, node); + quicklist->count += node->count; +} + +/* Create new node consisting of a pre-formed plain node. + * Used for loading RDBs where entire plain node has been stored + * to be retrieved later. + * data - the data to add (pointer becomes the responsibility of quicklist) */ +void quicklistAppendPlainNode(quicklist *quicklist, unsigned char *data, size_t sz) { + quicklistNode *node = quicklistCreateNode(); + + node->entry = data; + node->count = 1; + node->sz = sz; + node->container = QUICKLIST_NODE_CONTAINER_PLAIN; + + _quicklistInsertNodeAfter(quicklist, quicklist->tail, node); + quicklist->count += node->count; +} + +#define quicklistDeleteIfEmpty(ql, n) \ + do { \ + if ((n)->count == 0) { \ + __quicklistDelNode((ql), (n)); \ + (n) = NULL; \ + } \ + } while (0) + +REDIS_STATIC void __quicklistDelNode(quicklist *quicklist, + quicklistNode *node) { + /* Update the bookmark if any */ + quicklistBookmark *bm = _quicklistBookmarkFindByNode(quicklist, node); + if (bm) { + bm->node = node->next; + /* if the bookmark was to the last node, delete it. */ + if (!bm->node) + _quicklistBookmarkDelete(quicklist, bm); + } + + if (node->next) + node->next->prev = node->prev; + if (node->prev) + node->prev->next = node->next; + + if (node == quicklist->tail) { + quicklist->tail = node->prev; + } + + if (node == quicklist->head) { + quicklist->head = node->next; + } + + /* Update len first, so in __quicklistCompress we know exactly len */ + quicklist->len--; + quicklist->count -= node->count; + + /* If we deleted a node within our compress depth, we + * now have compressed nodes needing to be decompressed. */ + __quicklistCompress(quicklist, NULL); + + zfree(node->entry); + zfree(node); +} + +/* Delete one entry from list given the node for the entry and a pointer + * to the entry in the node. + * + * Note: quicklistDelIndex() *requires* uncompressed nodes because you + * already had to get *p from an uncompressed node somewhere. + * + * Returns 1 if the entire node was deleted, 0 if node still exists. + * Also updates in/out param 'p' with the next offset in the listpack. */ +REDIS_STATIC int quicklistDelIndex(quicklist *quicklist, quicklistNode *node, + unsigned char **p) { + int gone = 0; + + if (unlikely(QL_NODE_IS_PLAIN(node))) { + __quicklistDelNode(quicklist, node); + return 1; + } + node->entry = lpDelete(node->entry, *p, p); + node->count--; + if (node->count == 0) { + gone = 1; + __quicklistDelNode(quicklist, node); + } else { + quicklistNodeUpdateSz(node); + } + quicklist->count--; + /* If we deleted the node, the original node is no longer valid */ + return gone ? 1 : 0; +} + +/* Delete one element represented by 'entry' + * + * 'entry' stores enough metadata to delete the proper position in + * the correct listpack in the correct quicklist node. */ +void quicklistDelEntry(quicklistIter *iter, quicklistEntry *entry) { + quicklistNode *prev = entry->node->prev; + quicklistNode *next = entry->node->next; + int deleted_node = quicklistDelIndex((quicklist *)entry->quicklist, + entry->node, &entry->zi); + + /* after delete, the zi is now invalid for any future usage. */ + iter->zi = NULL; + + /* If current node is deleted, we must update iterator node and offset. */ + if (deleted_node) { + if (iter->direction == AL_START_HEAD) { + iter->current = next; + iter->offset = 0; + } else if (iter->direction == AL_START_TAIL) { + iter->current = prev; + iter->offset = -1; + } + } + /* else if (!deleted_node), no changes needed. + * we already reset iter->zi above, and the existing iter->offset + * doesn't move again because: + * - [1, 2, 3] => delete offset 1 => [1, 3]: next element still offset 1 + * - [1, 2, 3] => delete offset 0 => [2, 3]: next element still offset 0 + * if we deleted the last element at offset N and now + * length of this listpack is N-1, the next call into + * quicklistNext() will jump to the next node. */ +} + +/* Replace quicklist entry by 'data' with length 'sz'. */ +void quicklistReplaceEntry(quicklistIter *iter, quicklistEntry *entry, + void *data, size_t sz) +{ + quicklist* quicklist = iter->quicklist; + + if (likely(!QL_NODE_IS_PLAIN(entry->node) && !isLargeElement(sz))) { + entry->node->entry = lpReplace(entry->node->entry, &entry->zi, data, sz); + quicklistNodeUpdateSz(entry->node); + /* quicklistNext() and quicklistGetIteratorEntryAtIdx() provide an uncompressed node */ + quicklistCompress(quicklist, entry->node); + } else if (QL_NODE_IS_PLAIN(entry->node)) { + if (isLargeElement(sz)) { + zfree(entry->node->entry); + entry->node->entry = zmalloc(sz); + entry->node->sz = sz; + memcpy(entry->node->entry, data, sz); + quicklistCompress(quicklist, entry->node); + } else { + quicklistInsertAfter(iter, entry, data, sz); + __quicklistDelNode(quicklist, entry->node); + } + } else { + entry->node->dont_compress = 1; /* Prevent compression in quicklistInsertAfter() */ + quicklistInsertAfter(iter, entry, data, sz); + if (entry->node->count == 1) { + __quicklistDelNode(quicklist, entry->node); + } else { + unsigned char *p = lpSeek(entry->node->entry, -1); + quicklistDelIndex(quicklist, entry->node, &p); + entry->node->dont_compress = 0; /* Re-enable compression */ + quicklistCompress(quicklist, entry->node); + quicklistCompress(quicklist, entry->node->next); + } + } + + /* In any case, we reset iterator to forbid use of iterator after insert. + * Notice: iter->current has been compressed above. */ + resetIterator(iter); +} + +/* Replace quicklist entry at offset 'index' by 'data' with length 'sz'. + * + * Returns 1 if replace happened. + * Returns 0 if replace failed and no changes happened. */ +int quicklistReplaceAtIndex(quicklist *quicklist, long index, void *data, + size_t sz) { + quicklistEntry entry; + quicklistIter *iter = quicklistGetIteratorEntryAtIdx(quicklist, index, &entry); + if (likely(iter)) { + quicklistReplaceEntry(iter, &entry, data, sz); + quicklistReleaseIterator(iter); + return 1; + } else { + return 0; + } +} + +/* Given two nodes, try to merge their listpacks. + * + * This helps us not have a quicklist with 3 element listpacks if + * our fill factor can handle much higher levels. + * + * Note: 'a' must be to the LEFT of 'b'. + * + * After calling this function, both 'a' and 'b' should be considered + * unusable. The return value from this function must be used + * instead of re-using any of the quicklistNode input arguments. + * + * Returns the input node picked to merge against or NULL if + * merging was not possible. */ +REDIS_STATIC quicklistNode *_quicklistListpackMerge(quicklist *quicklist, + quicklistNode *a, + quicklistNode *b) { + D("Requested merge (a,b) (%u, %u)", a->count, b->count); + + quicklistDecompressNode(a); + quicklistDecompressNode(b); + if ((lpMerge(&a->entry, &b->entry))) { + /* We merged listpacks! Now remove the unused quicklistNode. */ + quicklistNode *keep = NULL, *nokeep = NULL; + if (!a->entry) { + nokeep = a; + keep = b; + } else if (!b->entry) { + nokeep = b; + keep = a; + } + keep->count = lpLength(keep->entry); + quicklistNodeUpdateSz(keep); + + nokeep->count = 0; + __quicklistDelNode(quicklist, nokeep); + quicklistCompress(quicklist, keep); + return keep; + } else { + /* else, the merge returned NULL and nothing changed. */ + return NULL; + } +} + +/* Attempt to merge listpacks within two nodes on either side of 'center'. + * + * We attempt to merge: + * - (center->prev->prev, center->prev) + * - (center->next, center->next->next) + * - (center->prev, center) + * - (center, center->next) + */ +REDIS_STATIC void _quicklistMergeNodes(quicklist *quicklist, + quicklistNode *center) { + int fill = quicklist->fill; + quicklistNode *prev, *prev_prev, *next, *next_next, *target; + prev = prev_prev = next = next_next = target = NULL; + + if (center->prev) { + prev = center->prev; + if (center->prev->prev) + prev_prev = center->prev->prev; + } + + if (center->next) { + next = center->next; + if (center->next->next) + next_next = center->next->next; + } + + /* Try to merge prev_prev and prev */ + if (_quicklistNodeAllowMerge(prev, prev_prev, fill)) { + _quicklistListpackMerge(quicklist, prev_prev, prev); + prev_prev = prev = NULL; /* they could have moved, invalidate them. */ + } + + /* Try to merge next and next_next */ + if (_quicklistNodeAllowMerge(next, next_next, fill)) { + _quicklistListpackMerge(quicklist, next, next_next); + next = next_next = NULL; /* they could have moved, invalidate them. */ + } + + /* Try to merge center node and previous node */ + if (_quicklistNodeAllowMerge(center, center->prev, fill)) { + target = _quicklistListpackMerge(quicklist, center->prev, center); + center = NULL; /* center could have been deleted, invalidate it. */ + } else { + /* else, we didn't merge here, but target needs to be valid below. */ + target = center; + } + + /* Use result of center merge (or original) to merge with next node. */ + if (_quicklistNodeAllowMerge(target, target->next, fill)) { + _quicklistListpackMerge(quicklist, target, target->next); + } +} + +/* Split 'node' into two parts, parameterized by 'offset' and 'after'. + * + * The 'after' argument controls which quicklistNode gets returned. + * If 'after'==1, returned node has elements after 'offset'. + * input node keeps elements up to 'offset', including 'offset'. + * If 'after'==0, returned node has elements up to 'offset'. + * input node keeps elements after 'offset', including 'offset'. + * + * Or in other words: + * If 'after'==1, returned node will have elements after 'offset'. + * The returned node will have elements [OFFSET+1, END]. + * The input node keeps elements [0, OFFSET]. + * If 'after'==0, returned node will keep elements up to but not including 'offset'. + * The returned node will have elements [0, OFFSET-1]. + * The input node keeps elements [OFFSET, END]. + * + * The input node keeps all elements not taken by the returned node. + * + * Returns newly created node or NULL if split not possible. */ +REDIS_STATIC quicklistNode *_quicklistSplitNode(quicklistNode *node, int offset, + int after) { + size_t zl_sz = node->sz; + + quicklistNode *new_node = quicklistCreateNode(); + new_node->entry = zmalloc(zl_sz); + + /* Copy original listpack so we can split it */ + memcpy(new_node->entry, node->entry, zl_sz); + + /* Need positive offset for calculating extent below. */ + if (offset < 0) offset = node->count + offset; + + /* Ranges to be trimmed: -1 here means "continue deleting until the list ends" */ + int orig_start = after ? offset + 1 : 0; + int orig_extent = after ? -1 : offset; + int new_start = after ? 0 : offset; + int new_extent = after ? offset + 1 : -1; + + D("After %d (%d); ranges: [%d, %d], [%d, %d]", after, offset, orig_start, + orig_extent, new_start, new_extent); + + node->entry = lpDeleteRange(node->entry, orig_start, orig_extent); + node->count = lpLength(node->entry); + quicklistNodeUpdateSz(node); + + new_node->entry = lpDeleteRange(new_node->entry, new_start, new_extent); + new_node->count = lpLength(new_node->entry); + quicklistNodeUpdateSz(new_node); + + D("After split lengths: orig (%d), new (%d)", node->count, new_node->count); + return new_node; +} + +/* Insert a new entry before or after existing entry 'entry'. + * + * If after==1, the new value is inserted after 'entry', otherwise + * the new value is inserted before 'entry'. */ +REDIS_STATIC void _quicklistInsert(quicklistIter *iter, quicklistEntry *entry, + void *value, const size_t sz, int after) +{ + quicklist *quicklist = iter->quicklist; + int full = 0, at_tail = 0, at_head = 0, avail_next = 0, avail_prev = 0; + int fill = quicklist->fill; + quicklistNode *node = entry->node; + quicklistNode *new_node = NULL; + + if (!node) { + /* we have no reference node, so let's create only node in the list */ + D("No node given!"); + if (unlikely(isLargeElement(sz))) { + __quicklistInsertPlainNode(quicklist, quicklist->tail, value, sz, after); + return; + } + new_node = quicklistCreateNode(); + new_node->entry = lpPrepend(lpNew(0), value, sz); + __quicklistInsertNode(quicklist, NULL, new_node, after); + new_node->count++; + quicklist->count++; + return; + } + + /* Populate accounting flags for easier boolean checks later */ + if (!_quicklistNodeAllowInsert(node, fill, sz)) { + D("Current node is full with count %d with requested fill %d", + node->count, fill); + full = 1; + } + + if (after && (entry->offset == node->count - 1 || entry->offset == -1)) { + D("At Tail of current listpack"); + at_tail = 1; + if (_quicklistNodeAllowInsert(node->next, fill, sz)) { + D("Next node is available."); + avail_next = 1; + } + } + + if (!after && (entry->offset == 0 || entry->offset == -(node->count))) { + D("At Head"); + at_head = 1; + if (_quicklistNodeAllowInsert(node->prev, fill, sz)) { + D("Prev node is available."); + avail_prev = 1; + } + } + + if (unlikely(isLargeElement(sz))) { + if (QL_NODE_IS_PLAIN(node) || (at_tail && after) || (at_head && !after)) { + __quicklistInsertPlainNode(quicklist, node, value, sz, after); + } else { + quicklistDecompressNodeForUse(node); + new_node = _quicklistSplitNode(node, entry->offset, after); + quicklistNode *entry_node = __quicklistCreatePlainNode(value, sz); + __quicklistInsertNode(quicklist, node, entry_node, after); + __quicklistInsertNode(quicklist, entry_node, new_node, after); + quicklist->count++; + } + return; + } + + /* Now determine where and how to insert the new element */ + if (!full && after) { + D("Not full, inserting after current position."); + quicklistDecompressNodeForUse(node); + node->entry = lpInsertString(node->entry, value, sz, entry->zi, LP_AFTER, NULL); + node->count++; + quicklistNodeUpdateSz(node); + quicklistRecompressOnly(node); + } else if (!full && !after) { + D("Not full, inserting before current position."); + quicklistDecompressNodeForUse(node); + node->entry = lpInsertString(node->entry, value, sz, entry->zi, LP_BEFORE, NULL); + node->count++; + quicklistNodeUpdateSz(node); + quicklistRecompressOnly(node); + } else if (full && at_tail && avail_next && after) { + /* If we are: at tail, next has free space, and inserting after: + * - insert entry at head of next node. */ + D("Full and tail, but next isn't full; inserting next node head"); + new_node = node->next; + quicklistDecompressNodeForUse(new_node); + new_node->entry = lpPrepend(new_node->entry, value, sz); + new_node->count++; + quicklistNodeUpdateSz(new_node); + quicklistRecompressOnly(new_node); + quicklistRecompressOnly(node); + } else if (full && at_head && avail_prev && !after) { + /* If we are: at head, previous has free space, and inserting before: + * - insert entry at tail of previous node. */ + D("Full and head, but prev isn't full, inserting prev node tail"); + new_node = node->prev; + quicklistDecompressNodeForUse(new_node); + new_node->entry = lpAppend(new_node->entry, value, sz); + new_node->count++; + quicklistNodeUpdateSz(new_node); + quicklistRecompressOnly(new_node); + quicklistRecompressOnly(node); + } else if (full && ((at_tail && !avail_next && after) || + (at_head && !avail_prev && !after))) { + /* If we are: full, and our prev/next has no available space, then: + * - create new node and attach to quicklist */ + D("\tprovisioning new node..."); + new_node = quicklistCreateNode(); + new_node->entry = lpPrepend(lpNew(0), value, sz); + new_node->count++; + quicklistNodeUpdateSz(new_node); + __quicklistInsertNode(quicklist, node, new_node, after); + } else if (full) { + /* else, node is full we need to split it. */ + /* covers both after and !after cases */ + D("\tsplitting node..."); + quicklistDecompressNodeForUse(node); + new_node = _quicklistSplitNode(node, entry->offset, after); + if (after) + new_node->entry = lpPrepend(new_node->entry, value, sz); + else + new_node->entry = lpAppend(new_node->entry, value, sz); + new_node->count++; + quicklistNodeUpdateSz(new_node); + __quicklistInsertNode(quicklist, node, new_node, after); + _quicklistMergeNodes(quicklist, node); + } + + quicklist->count++; + + /* In any case, we reset iterator to forbid use of iterator after insert. + * Notice: iter->current has been compressed in _quicklistInsert(). */ + resetIterator(iter); +} + +void quicklistInsertBefore(quicklistIter *iter, quicklistEntry *entry, + void *value, const size_t sz) +{ + _quicklistInsert(iter, entry, value, sz, 0); +} + +void quicklistInsertAfter(quicklistIter *iter, quicklistEntry *entry, + void *value, const size_t sz) +{ + _quicklistInsert(iter, entry, value, sz, 1); +} + +/* Delete a range of elements from the quicklist. + * + * elements may span across multiple quicklistNodes, so we + * have to be careful about tracking where we start and end. + * + * Returns 1 if entries were deleted, 0 if nothing was deleted. */ +int quicklistDelRange(quicklist *quicklist, const long start, + const long count) { + if (count <= 0) + return 0; + + unsigned long extent = count; /* range is inclusive of start position */ + + if (start >= 0 && extent > (quicklist->count - start)) { + /* if requesting delete more elements than exist, limit to list size. */ + extent = quicklist->count - start; + } else if (start < 0 && extent > (unsigned long)(-start)) { + /* else, if at negative offset, limit max size to rest of list. */ + extent = -start; /* c.f. LREM -29 29; just delete until end. */ + } + + quicklistIter *iter = quicklistGetIteratorAtIdx(quicklist, AL_START_TAIL, start); + if (!iter) + return 0; + + D("Quicklist delete request for start %ld, count %ld, extent: %ld", start, + count, extent); + quicklistNode *node = iter->current; + long offset = iter->offset; + quicklistReleaseIterator(iter); + + /* iterate over next nodes until everything is deleted. */ + while (extent) { + quicklistNode *next = node->next; + + unsigned long del; + int delete_entire_node = 0; + if (offset == 0 && extent >= node->count) { + /* If we are deleting more than the count of this node, we + * can just delete the entire node without listpack math. */ + delete_entire_node = 1; + del = node->count; + } else if (offset >= 0 && extent + offset >= node->count) { + /* If deleting more nodes after this one, calculate delete based + * on size of current node. */ + del = node->count - offset; + } else if (offset < 0) { + /* If offset is negative, we are in the first run of this loop + * and we are deleting the entire range + * from this start offset to end of list. Since the Negative + * offset is the number of elements until the tail of the list, + * just use it directly as the deletion count. */ + del = -offset; + + /* If the positive offset is greater than the remaining extent, + * we only delete the remaining extent, not the entire offset. + */ + if (del > extent) + del = extent; + } else { + /* else, we are deleting less than the extent of this node, so + * use extent directly. */ + del = extent; + } + + D("[%ld]: asking to del: %ld because offset: %d; (ENTIRE NODE: %d), " + "node count: %u", + extent, del, offset, delete_entire_node, node->count); + + if (delete_entire_node || QL_NODE_IS_PLAIN(node)) { + __quicklistDelNode(quicklist, node); + } else { + quicklistDecompressNodeForUse(node); + node->entry = lpDeleteRange(node->entry, offset, del); + quicklistNodeUpdateSz(node); + node->count -= del; + quicklist->count -= del; + quicklistDeleteIfEmpty(quicklist, node); + if (node) + quicklistRecompressOnly(node); + } + + extent -= del; + + node = next; + + offset = 0; + } + return 1; +} + +/* compare between a two entries */ +int quicklistCompare(quicklistEntry* entry, unsigned char *p2, const size_t p2_len) { + if (unlikely(QL_NODE_IS_PLAIN(entry->node))) { + return ((entry->sz == p2_len) && (memcmp(entry->value, p2, p2_len) == 0)); + } + return lpCompare(entry->zi, p2, p2_len); +} + +/* Returns a quicklist iterator 'iter'. After the initialization every + * call to quicklistNext() will return the next element of the quicklist. */ +quicklistIter *quicklistGetIterator(quicklist *quicklist, int direction) { + quicklistIter *iter; + + iter = zmalloc(sizeof(*iter)); + + if (direction == AL_START_HEAD) { + iter->current = quicklist->head; + iter->offset = 0; + } else if (direction == AL_START_TAIL) { + iter->current = quicklist->tail; + iter->offset = -1; + } + + iter->direction = direction; + iter->quicklist = quicklist; + + iter->zi = NULL; + + return iter; +} + +/* Initialize an iterator at a specific offset 'idx' and make the iterator + * return nodes in 'direction' direction. */ +quicklistIter *quicklistGetIteratorAtIdx(quicklist *quicklist, + const int direction, + const long long idx) +{ + quicklistNode *n; + unsigned long long accum = 0; + unsigned long long index; + int forward = idx < 0 ? 0 : 1; /* < 0 -> reverse, 0+ -> forward */ + + index = forward ? idx : (-idx) - 1; + if (index >= quicklist->count) + return NULL; + + /* Seek in the other direction if that way is shorter. */ + int seek_forward = forward; + unsigned long long seek_index = index; + if (index > (quicklist->count - 1) / 2) { + seek_forward = !forward; + seek_index = quicklist->count - 1 - index; + } + + n = seek_forward ? quicklist->head : quicklist->tail; + while (likely(n)) { + if ((accum + n->count) > seek_index) { + break; + } else { + D("Skipping over (%p) %u at accum %lld", (void *)n, n->count, + accum); + accum += n->count; + n = seek_forward ? n->next : n->prev; + } + } + + if (!n) + return NULL; + + /* Fix accum so it looks like we seeked in the other direction. */ + if (seek_forward != forward) accum = quicklist->count - n->count - accum; + + D("Found node: %p at accum %llu, idx %llu, sub+ %llu, sub- %llu", (void *)n, + accum, index, index - accum, (-index) - 1 + accum); + + quicklistIter *iter = quicklistGetIterator(quicklist, direction); + iter->current = n; + if (forward) { + /* forward = normal head-to-tail offset. */ + iter->offset = index - accum; + } else { + /* reverse = need negative offset for tail-to-head, so undo + * the result of the original index = (-idx) - 1 above. */ + iter->offset = (-index) - 1 + accum; + } + + return iter; +} + +/* Release iterator. + * If we still have a valid current node, then re-encode current node. */ +void quicklistReleaseIterator(quicklistIter *iter) { + if (!iter) return; + if (iter->current) + quicklistCompress(iter->quicklist, iter->current); + + zfree(iter); +} + +/* Get next element in iterator. + * + * Note: You must NOT insert into the list while iterating over it. + * You *may* delete from the list while iterating using the + * quicklistDelEntry() function. + * If you insert into the quicklist while iterating, you should + * re-create the iterator after your addition. + * + * iter = quicklistGetIterator(quicklist,); + * quicklistEntry entry; + * while (quicklistNext(iter, &entry)) { + * if (entry.value) + * [[ use entry.value with entry.sz ]] + * else + * [[ use entry.longval ]] + * } + * + * Populates 'entry' with values for this iteration. + * Returns 0 when iteration is complete or if iteration not possible. + * If return value is 0, the contents of 'entry' are not valid. + */ +int quicklistNext(quicklistIter *iter, quicklistEntry *entry) { + initEntry(entry); + + if (!iter) { + D("Returning because no iter!"); + return 0; + } + + entry->quicklist = iter->quicklist; + entry->node = iter->current; + + if (!iter->current) { + D("Returning because current node is NULL"); + return 0; + } + + unsigned char *(*nextFn)(unsigned char *, unsigned char *) = NULL; + int offset_update = 0; + + int plain = QL_NODE_IS_PLAIN(iter->current); + if (!iter->zi) { + /* If !zi, use current index. */ + quicklistDecompressNodeForUse(iter->current); + if (unlikely(plain)) + iter->zi = iter->current->entry; + else + iter->zi = lpSeek(iter->current->entry, iter->offset); + } else if (unlikely(plain)) { + iter->zi = NULL; + } else { + /* else, use existing iterator offset and get prev/next as necessary. */ + if (iter->direction == AL_START_HEAD) { + nextFn = lpNext; + offset_update = 1; + } else if (iter->direction == AL_START_TAIL) { + nextFn = lpPrev; + offset_update = -1; + } + iter->zi = nextFn(iter->current->entry, iter->zi); + iter->offset += offset_update; + } + + entry->zi = iter->zi; + entry->offset = iter->offset; + + if (iter->zi) { + if (unlikely(plain)) { + entry->value = entry->node->entry; + entry->sz = entry->node->sz; + return 1; + } + /* Populate value from existing listpack position */ + unsigned int sz = 0; + entry->value = lpGetValue(entry->zi, &sz, &entry->longval); + entry->sz = sz; + return 1; + } else { + /* We ran out of listpack entries. + * Pick next node, update offset, then re-run retrieval. */ + quicklistCompress(iter->quicklist, iter->current); + if (iter->direction == AL_START_HEAD) { + /* Forward traversal */ + D("Jumping to start of next node"); + iter->current = iter->current->next; + iter->offset = 0; + } else if (iter->direction == AL_START_TAIL) { + /* Reverse traversal */ + D("Jumping to end of previous node"); + iter->current = iter->current->prev; + iter->offset = -1; + } + iter->zi = NULL; + return quicklistNext(iter, entry); + } +} + +/* Sets the direction of a quicklist iterator. */ +void quicklistSetDirection(quicklistIter *iter, int direction) { + iter->direction = direction; +} + +/* Duplicate the quicklist. + * On success a copy of the original quicklist is returned. + * + * The original quicklist both on success or error is never modified. + * + * Returns newly allocated quicklist. */ +quicklist *quicklistDup(quicklist *orig) { + quicklist *copy; + + copy = quicklistNew(orig->fill, orig->compress); + + for (quicklistNode *current = orig->head; current; + current = current->next) { + quicklistNode *node = quicklistCreateNode(); + + if (current->encoding == QUICKLIST_NODE_ENCODING_LZF) { + quicklistLZF *lzf = (quicklistLZF *)current->entry; + size_t lzf_sz = sizeof(*lzf) + lzf->sz; + node->entry = zmalloc(lzf_sz); + memcpy(node->entry, current->entry, lzf_sz); + } else if (current->encoding == QUICKLIST_NODE_ENCODING_RAW) { + node->entry = zmalloc(current->sz); + memcpy(node->entry, current->entry, current->sz); + } + + node->count = current->count; + copy->count += node->count; + node->sz = current->sz; + node->encoding = current->encoding; + node->container = current->container; + + _quicklistInsertNodeAfter(copy, copy->tail, node); + } + + /* copy->count must equal orig->count here */ + return copy; +} + +/* Populate 'entry' with the element at the specified zero-based index + * where 0 is the head, 1 is the element next to head + * and so on. Negative integers are used in order to count + * from the tail, -1 is the last element, -2 the penultimate + * and so on. If the index is out of range 0 is returned. + * + * Returns an iterator at a specific offset 'idx' if element found + * Returns NULL if element not found */ +quicklistIter *quicklistGetIteratorEntryAtIdx(quicklist *quicklist, const long long idx, + quicklistEntry *entry) +{ + quicklistIter *iter = quicklistGetIteratorAtIdx(quicklist, AL_START_TAIL, idx); + if (!iter) return NULL; + assert(quicklistNext(iter, entry)); + return iter; +} + +static void quicklistRotatePlain(quicklist *quicklist) { + quicklistNode *new_head = quicklist->tail; + quicklistNode *new_tail = quicklist->tail->prev; + quicklist->head->prev = new_head; + new_tail->next = NULL; + new_head->next = quicklist->head; + new_head->prev = NULL; + quicklist->head = new_head; + quicklist->tail = new_tail; +} + +/* Rotate quicklist by moving the tail element to the head. */ +void quicklistRotate(quicklist *quicklist) { + if (quicklist->count <= 1) + return; + + if (unlikely(QL_NODE_IS_PLAIN(quicklist->tail))) { + quicklistRotatePlain(quicklist); + return; + } + + /* First, get the tail entry */ + unsigned char *p = lpSeek(quicklist->tail->entry, -1); + unsigned char *value, *tmp; + long long longval; + unsigned int sz; + char longstr[32] = {0}; + tmp = lpGetValue(p, &sz, &longval); + + /* If value found is NULL, then lpGet populated longval instead */ + if (!tmp) { + /* Write the longval as a string so we can re-add it */ + sz = ll2string(longstr, sizeof(longstr), longval); + value = (unsigned char *)longstr; + } else if (quicklist->len == 1) { + /* Copy buffer since there could be a memory overlap when move + * entity from tail to head in the same listpack. */ + value = zmalloc(sz); + memcpy(value, tmp, sz); + } else { + value = tmp; + } + + /* Add tail entry to head (must happen before tail is deleted). */ + quicklistPushHead(quicklist, value, sz); + + /* If quicklist has only one node, the head listpack is also the + * tail listpack and PushHead() could have reallocated our single listpack, + * which would make our pre-existing 'p' unusable. */ + if (quicklist->len == 1) { + p = lpSeek(quicklist->tail->entry, -1); + } + + /* Remove tail entry. */ + quicklistDelIndex(quicklist, quicklist->tail, &p); + if (value != (unsigned char*)longstr && value != tmp) + zfree(value); +} + +/* pop from quicklist and return result in 'data' ptr. Value of 'data' + * is the return value of 'saver' function pointer if the data is NOT a number. + * + * If the quicklist element is a long long, then the return value is returned in + * 'sval'. + * + * Return value of 0 means no elements available. + * Return value of 1 means check 'data' and 'sval' for values. + * If 'data' is set, use 'data' and 'sz'. Otherwise, use 'sval'. */ +int quicklistPopCustom(quicklist *quicklist, int where, unsigned char **data, + size_t *sz, long long *sval, + void *(*saver)(unsigned char *data, size_t sz)) { + unsigned char *p; + unsigned char *vstr; + unsigned int vlen; + long long vlong; + int pos = (where == QUICKLIST_HEAD) ? 0 : -1; + + if (quicklist->count == 0) + return 0; + + if (data) + *data = NULL; + if (sz) + *sz = 0; + if (sval) + *sval = -123456789; + + quicklistNode *node; + if (where == QUICKLIST_HEAD && quicklist->head) { + node = quicklist->head; + } else if (where == QUICKLIST_TAIL && quicklist->tail) { + node = quicklist->tail; + } else { + return 0; + } + + /* The head and tail should never be compressed */ + assert(node->encoding != QUICKLIST_NODE_ENCODING_LZF); + + if (unlikely(QL_NODE_IS_PLAIN(node))) { + if (data) + *data = saver(node->entry, node->sz); + if (sz) + *sz = node->sz; + quicklistDelIndex(quicklist, node, NULL); + return 1; + } + + p = lpSeek(node->entry, pos); + vstr = lpGetValue(p, &vlen, &vlong); + if (vstr) { + if (data) + *data = saver(vstr, vlen); + if (sz) + *sz = vlen; + } else { + if (data) + *data = NULL; + if (sval) + *sval = vlong; + } + quicklistDelIndex(quicklist, node, &p); + return 1; +} + +/* Return a malloc'd copy of data passed in */ +REDIS_STATIC void *_quicklistSaver(unsigned char *data, size_t sz) { + unsigned char *vstr; + if (data) { + vstr = zmalloc(sz); + memcpy(vstr, data, sz); + return vstr; + } + return NULL; +} + +/* Default pop function + * + * Returns malloc'd value from quicklist */ +int quicklistPop(quicklist *quicklist, int where, unsigned char **data, + size_t *sz, long long *slong) { + unsigned char *vstr = NULL; + size_t vlen = 0; + long long vlong = 0; + if (quicklist->count == 0) + return 0; + int ret = quicklistPopCustom(quicklist, where, &vstr, &vlen, &vlong, + _quicklistSaver); + if (data) + *data = vstr; + if (slong) + *slong = vlong; + if (sz) + *sz = vlen; + return ret; +} + +/* Wrapper to allow argument-based switching between HEAD/TAIL pop */ +void quicklistPush(quicklist *quicklist, void *value, const size_t sz, + int where) { + /* The head and tail should never be compressed (we don't attempt to decompress them) */ + if (quicklist->head) + assert(quicklist->head->encoding != QUICKLIST_NODE_ENCODING_LZF); + if (quicklist->tail) + assert(quicklist->tail->encoding != QUICKLIST_NODE_ENCODING_LZF); + + if (where == QUICKLIST_HEAD) { + quicklistPushHead(quicklist, value, sz); + } else if (where == QUICKLIST_TAIL) { + quicklistPushTail(quicklist, value, sz); + } +} + +/* Print info of quicklist which is used in debugCommand. */ +void quicklistRepr(unsigned char *ql, int full) { + int i = 0; + quicklist *quicklist = (struct quicklist*) ql; + printf("{count : %ld}\n", quicklist->count); + printf("{len : %ld}\n", quicklist->len); + printf("{fill : %d}\n", quicklist->fill); + printf("{compress : %d}\n", quicklist->compress); + printf("{bookmark_count : %d}\n", quicklist->bookmark_count); + quicklistNode* node = quicklist->head; + + while(node != NULL) { + printf("{quicklist node(%d)\n", i++); + printf("{container : %s, encoding: %s, size: %zu, count: %d, recompress: %d, attempted_compress: %d}\n", + QL_NODE_IS_PLAIN(node) ? "PLAIN": "PACKED", + (node->encoding == QUICKLIST_NODE_ENCODING_RAW) ? "RAW": "LZF", + node->sz, + node->count, + node->recompress, + node->attempted_compress); + + if (full) { + quicklistDecompressNode(node); + if (node->container == QUICKLIST_NODE_CONTAINER_PACKED) { + printf("{ listpack:\n"); + lpRepr(node->entry); + printf("}\n"); + + } else if (QL_NODE_IS_PLAIN(node)) { + printf("{ entry : %s }\n", node->entry); + } + printf("}\n"); + quicklistRecompressOnly(node); + } + node = node->next; + } +} + +/* Create or update a bookmark in the list which will be updated to the next node + * automatically when the one referenced gets deleted. + * Returns 1 on success (creation of new bookmark or override of an existing one). + * Returns 0 on failure (reached the maximum supported number of bookmarks). + * NOTE: use short simple names, so that string compare on find is quick. + * NOTE: bookmark creation may re-allocate the quicklist, so the input pointer + may change and it's the caller responsibility to update the reference. + */ +int quicklistBookmarkCreate(quicklist **ql_ref, const char *name, quicklistNode *node) { + quicklist *ql = *ql_ref; + if (ql->bookmark_count >= QL_MAX_BM) + return 0; + quicklistBookmark *bm = _quicklistBookmarkFindByName(ql, name); + if (bm) { + bm->node = node; + return 1; + } + ql = zrealloc(ql, sizeof(quicklist) + (ql->bookmark_count+1) * sizeof(quicklistBookmark)); + *ql_ref = ql; + ql->bookmarks[ql->bookmark_count].node = node; + ql->bookmarks[ql->bookmark_count].name = zstrdup(name); + ql->bookmark_count++; + return 1; +} + +/* Find the quicklist node referenced by a named bookmark. + * When the bookmarked node is deleted the bookmark is updated to the next node, + * and if that's the last node, the bookmark is deleted (so find returns NULL). */ +quicklistNode *quicklistBookmarkFind(quicklist *ql, const char *name) { + quicklistBookmark *bm = _quicklistBookmarkFindByName(ql, name); + if (!bm) return NULL; + return bm->node; +} + +/* Delete a named bookmark. + * returns 0 if bookmark was not found, and 1 if deleted. + * Note that the bookmark memory is not freed yet, and is kept for future use. */ +int quicklistBookmarkDelete(quicklist *ql, const char *name) { + quicklistBookmark *bm = _quicklistBookmarkFindByName(ql, name); + if (!bm) + return 0; + _quicklistBookmarkDelete(ql, bm); + return 1; +} + +quicklistBookmark *_quicklistBookmarkFindByName(quicklist *ql, const char *name) { + unsigned i; + for (i=0; ibookmark_count; i++) { + if (!strcmp(ql->bookmarks[i].name, name)) { + return &ql->bookmarks[i]; + } + } + return NULL; +} + +quicklistBookmark *_quicklistBookmarkFindByNode(quicklist *ql, quicklistNode *node) { + unsigned i; + for (i=0; ibookmark_count; i++) { + if (ql->bookmarks[i].node == node) { + return &ql->bookmarks[i]; + } + } + return NULL; +} + +void _quicklistBookmarkDelete(quicklist *ql, quicklistBookmark *bm) { + int index = bm - ql->bookmarks; + zfree(bm->name); + ql->bookmark_count--; + memmove(bm, bm+1, (ql->bookmark_count - index)* sizeof(*bm)); + /* NOTE: We do not shrink (realloc) the quicklist yet (to avoid resonance, + * it may be re-used later (a call to realloc may NOP). */ +} + +void quicklistBookmarksClear(quicklist *ql) { + while (ql->bookmark_count) + zfree(ql->bookmarks[--ql->bookmark_count].name); + /* NOTE: We do not shrink (realloc) the quick list. main use case for this + * function is just before releasing the allocation. */ +} + +/* The rest of this file is test cases and test helpers. */ +#ifdef REDIS_TEST +#include +#include +#include "testhelp.h" +#include + +#define yell(str, ...) printf("ERROR! " str "\n\n", __VA_ARGS__) + +#define ERROR \ + do { \ + printf("\tERROR!\n"); \ + err++; \ + } while (0) + +#define ERR(x, ...) \ + do { \ + printf("%s:%s:%d:\t", __FILE__, __func__, __LINE__); \ + printf("ERROR! " x "\n", __VA_ARGS__); \ + err++; \ + } while (0) + +#define TEST(name) printf("test — %s\n", name); +#define TEST_DESC(name, ...) printf("test — " name "\n", __VA_ARGS__); + +#define QL_TEST_VERBOSE 0 + +#define UNUSED(x) (void)(x) +static void ql_info(quicklist *ql) { +#if QL_TEST_VERBOSE + printf("Container length: %lu\n", ql->len); + printf("Container size: %lu\n", ql->count); + if (ql->head) + printf("\t(zsize head: %lu)\n", lpLength(ql->head->entry)); + if (ql->tail) + printf("\t(zsize tail: %lu)\n", lpLength(ql->tail->entry)); + printf("\n"); +#else + UNUSED(ql); +#endif +} + +/* Return the UNIX time in microseconds */ +static long long ustime(void) { + struct timeval tv; + long long ust; + + gettimeofday(&tv, NULL); + ust = ((long long)tv.tv_sec) * 1000000; + ust += tv.tv_usec; + return ust; +} + +/* Return the UNIX time in milliseconds */ +static long long mstime(void) { return ustime() / 1000; } + +/* Iterate over an entire quicklist. + * Print the list if 'print' == 1. + * + * Returns physical count of elements found by iterating over the list. */ +static int _itrprintr(quicklist *ql, int print, int forward) { + quicklistIter *iter = + quicklistGetIterator(ql, forward ? AL_START_HEAD : AL_START_TAIL); + quicklistEntry entry; + int i = 0; + int p = 0; + quicklistNode *prev = NULL; + while (quicklistNext(iter, &entry)) { + if (entry.node != prev) { + /* Count the number of list nodes too */ + p++; + prev = entry.node; + } + if (print) { + int size = (entry.sz > (1<<20)) ? 1<<20 : entry.sz; + printf("[%3d (%2d)]: [%.*s] (%lld)\n", i, p, size, + (char *)entry.value, entry.longval); + } + i++; + } + quicklistReleaseIterator(iter); + return i; +} +static int itrprintr(quicklist *ql, int print) { + return _itrprintr(ql, print, 1); +} + +static int itrprintr_rev(quicklist *ql, int print) { + return _itrprintr(ql, print, 0); +} + +#define ql_verify(a, b, c, d, e) \ + do { \ + err += _ql_verify((a), (b), (c), (d), (e)); \ + } while (0) + +static int _ql_verify_compress(quicklist *ql) { + int errors = 0; + if (quicklistAllowsCompression(ql)) { + quicklistNode *node = ql->head; + unsigned int low_raw = ql->compress; + unsigned int high_raw = ql->len - ql->compress; + + for (unsigned int at = 0; at < ql->len; at++, node = node->next) { + if (node && (at < low_raw || at >= high_raw)) { + if (node->encoding != QUICKLIST_NODE_ENCODING_RAW) { + yell("Incorrect compression: node %d is " + "compressed at depth %d ((%u, %u); total " + "nodes: %lu; size: %zu; recompress: %d)", + at, ql->compress, low_raw, high_raw, ql->len, node->sz, + node->recompress); + errors++; + } + } else { + if (node->encoding != QUICKLIST_NODE_ENCODING_LZF && + !node->attempted_compress) { + yell("Incorrect non-compression: node %d is NOT " + "compressed at depth %d ((%u, %u); total " + "nodes: %lu; size: %zu; recompress: %d; attempted: %d)", + at, ql->compress, low_raw, high_raw, ql->len, node->sz, + node->recompress, node->attempted_compress); + errors++; + } + } + } + } + return errors; +} + +/* Verify list metadata matches physical list contents. */ +static int _ql_verify(quicklist *ql, uint32_t len, uint32_t count, + uint32_t head_count, uint32_t tail_count) { + int errors = 0; + + ql_info(ql); + if (len != ql->len) { + yell("quicklist length wrong: expected %d, got %lu", len, ql->len); + errors++; + } + + if (count != ql->count) { + yell("quicklist count wrong: expected %d, got %lu", count, ql->count); + errors++; + } + + int loopr = itrprintr(ql, 0); + if (loopr != (int)ql->count) { + yell("quicklist cached count not match actual count: expected %lu, got " + "%d", + ql->count, loopr); + errors++; + } + + int rloopr = itrprintr_rev(ql, 0); + if (loopr != rloopr) { + yell("quicklist has different forward count than reverse count! " + "Forward count is %d, reverse count is %d.", + loopr, rloopr); + errors++; + } + + if (ql->len == 0 && !errors) { + return errors; + } + + if (ql->head && head_count != ql->head->count && + head_count != lpLength(ql->head->entry)) { + yell("quicklist head count wrong: expected %d, " + "got cached %d vs. actual %lu", + head_count, ql->head->count, lpLength(ql->head->entry)); + errors++; + } + + if (ql->tail && tail_count != ql->tail->count && + tail_count != lpLength(ql->tail->entry)) { + yell("quicklist tail count wrong: expected %d, " + "got cached %u vs. actual %lu", + tail_count, ql->tail->count, lpLength(ql->tail->entry)); + errors++; + } + + errors += _ql_verify_compress(ql); + return errors; +} + +/* Release iterator and verify compress correctly. */ +static void ql_release_iterator(quicklistIter *iter) { + quicklist *ql = NULL; + if (iter) ql = iter->quicklist; + quicklistReleaseIterator(iter); + if (ql) assert(!_ql_verify_compress(ql)); +} + +/* Generate new string concatenating integer i against string 'prefix' */ +static char *genstr(char *prefix, int i) { + static char result[64] = {0}; + snprintf(result, sizeof(result), "%s%d", prefix, i); + return result; +} + +static void randstring(unsigned char *target, size_t sz) { + size_t p = 0; + int minval, maxval; + switch(rand() % 3) { + case 0: + minval = 'a'; + maxval = 'z'; + break; + case 1: + minval = '0'; + maxval = '9'; + break; + case 2: + minval = 'A'; + maxval = 'Z'; + break; + default: + assert(NULL); + } + + while(p < sz) + target[p++] = minval+rand()%(maxval-minval+1); +} + +/* main test, but callable from other files */ +int quicklistTest(int argc, char *argv[], int flags) { + UNUSED(argc); + UNUSED(argv); + + int accurate = (flags & REDIS_TEST_ACCURATE); + unsigned int err = 0; + int optimize_start = + -(int)(sizeof(optimization_level) / sizeof(*optimization_level)); + + printf("Starting optimization offset at: %d\n", optimize_start); + + int options[] = {0, 1, 2, 3, 4, 5, 6, 10}; + int fills[] = {-5, -4, -3, -2, -1, 0, + 1, 2, 32, 66, 128, 999}; + size_t option_count = sizeof(options) / sizeof(*options); + int fill_count = (int)(sizeof(fills) / sizeof(*fills)); + long long runtime[option_count]; + + for (int _i = 0; _i < (int)option_count; _i++) { + printf("Testing Compression option %d\n", options[_i]); + long long start = mstime(); + quicklistIter *iter; + + TEST("create list") { + quicklist *ql = quicklistNew(-2, options[_i]); + ql_verify(ql, 0, 0, 0, 0); + quicklistRelease(ql); + } + + TEST("add to tail of empty list") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistPushTail(ql, "hello", 6); + /* 1 for head and 1 for tail because 1 node = head = tail */ + ql_verify(ql, 1, 1, 1, 1); + quicklistRelease(ql); + } + + TEST("add to head of empty list") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistPushHead(ql, "hello", 6); + /* 1 for head and 1 for tail because 1 node = head = tail */ + ql_verify(ql, 1, 1, 1, 1); + quicklistRelease(ql); + } + + TEST_DESC("add to tail 5x at compress %d", options[_i]) { + for (int f = 0; f < fill_count; f++) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + for (int i = 0; i < 5; i++) + quicklistPushTail(ql, genstr("hello", i), 32); + if (ql->count != 5) + ERROR; + if (fills[f] == 32) + ql_verify(ql, 1, 5, 5, 5); + quicklistRelease(ql); + } + } + + TEST_DESC("add to head 5x at compress %d", options[_i]) { + for (int f = 0; f < fill_count; f++) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + for (int i = 0; i < 5; i++) + quicklistPushHead(ql, genstr("hello", i), 32); + if (ql->count != 5) + ERROR; + if (fills[f] == 32) + ql_verify(ql, 1, 5, 5, 5); + quicklistRelease(ql); + } + } + + TEST_DESC("add to tail 500x at compress %d", options[_i]) { + for (int f = 0; f < fill_count; f++) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + for (int i = 0; i < 500; i++) + quicklistPushTail(ql, genstr("hello", i), 64); + if (ql->count != 500) + ERROR; + if (fills[f] == 32) + ql_verify(ql, 16, 500, 32, 20); + quicklistRelease(ql); + } + } + + TEST_DESC("add to head 500x at compress %d", options[_i]) { + for (int f = 0; f < fill_count; f++) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + for (int i = 0; i < 500; i++) + quicklistPushHead(ql, genstr("hello", i), 32); + if (ql->count != 500) + ERROR; + if (fills[f] == 32) + ql_verify(ql, 16, 500, 20, 32); + quicklistRelease(ql); + } + } + + TEST("rotate empty") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistRotate(ql); + ql_verify(ql, 0, 0, 0, 0); + quicklistRelease(ql); + } + + TEST("Comprassion Plain node") { + char buf[256]; + quicklistisSetPackedThreshold(1); + quicklist *ql = quicklistNew(-2, 1); + for (int i = 0; i < 500; i++) { + /* Set to 256 to allow the node to be triggered to compress, + * if it is less than 48(nocompress), the test will be successful. */ + snprintf(buf, sizeof(buf), "hello%d", i); + quicklistPushHead(ql, buf, 256); + } + + quicklistIter *iter = quicklistGetIterator(ql, AL_START_TAIL); + quicklistEntry entry; + int i = 0; + while (quicklistNext(iter, &entry)) { + snprintf(buf, sizeof(buf), "hello%d", i); + if (strcmp((char *)entry.value, buf)) + ERR("value [%s] didn't match [%s] at position %d", + entry.value, buf, i); + i++; + } + ql_release_iterator(iter); + quicklistRelease(ql); + } + + TEST("NEXT plain node") + { + packed_threshold = 3; + quicklist *ql = quicklistNew(-2, options[_i]); + char *strings[] = {"hello1", "hello2", "h3", "h4", "hello5"}; + + for (int i = 0; i < 5; ++i) + quicklistPushHead(ql, strings[i], strlen(strings[i])); + + quicklistEntry entry; + quicklistIter *iter = quicklistGetIterator(ql, AL_START_TAIL); + int j = 0; + + while(quicklistNext(iter, &entry) != 0) { + assert(strncmp(strings[j], (char *)entry.value, strlen(strings[j])) == 0); + j++; + } + ql_release_iterator(iter); + quicklistRelease(ql); + } + + TEST("rotate plain node ") { + unsigned char *data = NULL; + size_t sz; + long long lv; + int i =0; + packed_threshold = 5; + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistPushHead(ql, "hello1", 6); + quicklistPushHead(ql, "hello4", 6); + quicklistPushHead(ql, "hello3", 6); + quicklistPushHead(ql, "hello2", 6); + quicklistRotate(ql); + + for(i = 1 ; i < 5; i++) { + quicklistPop(ql, QUICKLIST_HEAD, &data, &sz, &lv); + int temp_char = data[5]; + zfree(data); + assert(temp_char == ('0' + i)); + } + + ql_verify(ql, 0, 0, 0, 0); + quicklistRelease(ql); + packed_threshold = (1 << 30); + } + + TEST("rotate one val once") { + for (int f = 0; f < fill_count; f++) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + quicklistPushHead(ql, "hello", 6); + quicklistRotate(ql); + /* Ignore compression verify because listpack is + * too small to compress. */ + ql_verify(ql, 1, 1, 1, 1); + quicklistRelease(ql); + } + } + + TEST_DESC("rotate 500 val 5000 times at compress %d", options[_i]) { + for (int f = 0; f < fill_count; f++) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + quicklistPushHead(ql, "900", 3); + quicklistPushHead(ql, "7000", 4); + quicklistPushHead(ql, "-1200", 5); + quicklistPushHead(ql, "42", 2); + for (int i = 0; i < 500; i++) + quicklistPushHead(ql, genstr("hello", i), 64); + ql_info(ql); + for (int i = 0; i < 5000; i++) { + ql_info(ql); + quicklistRotate(ql); + } + if (fills[f] == 1) + ql_verify(ql, 504, 504, 1, 1); + else if (fills[f] == 2) + ql_verify(ql, 252, 504, 2, 2); + else if (fills[f] == 32) + ql_verify(ql, 16, 504, 32, 24); + quicklistRelease(ql); + } + } + + TEST("pop empty") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistPop(ql, QUICKLIST_HEAD, NULL, NULL, NULL); + ql_verify(ql, 0, 0, 0, 0); + quicklistRelease(ql); + } + + TEST("pop 1 string from 1") { + quicklist *ql = quicklistNew(-2, options[_i]); + char *populate = genstr("hello", 331); + quicklistPushHead(ql, populate, 32); + unsigned char *data; + size_t sz; + long long lv; + ql_info(ql); + assert(quicklistPop(ql, QUICKLIST_HEAD, &data, &sz, &lv)); + assert(data != NULL); + assert(sz == 32); + if (strcmp(populate, (char *)data)) { + int size = sz; + ERR("Pop'd value (%.*s) didn't equal original value (%s)", size, + data, populate); + } + zfree(data); + ql_verify(ql, 0, 0, 0, 0); + quicklistRelease(ql); + } + + TEST("pop head 1 number from 1") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistPushHead(ql, "55513", 5); + unsigned char *data; + size_t sz; + long long lv; + ql_info(ql); + assert(quicklistPop(ql, QUICKLIST_HEAD, &data, &sz, &lv)); + assert(data == NULL); + assert(lv == 55513); + ql_verify(ql, 0, 0, 0, 0); + quicklistRelease(ql); + } + + TEST("pop head 500 from 500") { + quicklist *ql = quicklistNew(-2, options[_i]); + for (int i = 0; i < 500; i++) + quicklistPushHead(ql, genstr("hello", i), 32); + ql_info(ql); + for (int i = 0; i < 500; i++) { + unsigned char *data; + size_t sz; + long long lv; + int ret = quicklistPop(ql, QUICKLIST_HEAD, &data, &sz, &lv); + assert(ret == 1); + assert(data != NULL); + assert(sz == 32); + if (strcmp(genstr("hello", 499 - i), (char *)data)) { + int size = sz; + ERR("Pop'd value (%.*s) didn't equal original value (%s)", + size, data, genstr("hello", 499 - i)); + } + zfree(data); + } + ql_verify(ql, 0, 0, 0, 0); + quicklistRelease(ql); + } + + TEST("pop head 5000 from 500") { + quicklist *ql = quicklistNew(-2, options[_i]); + for (int i = 0; i < 500; i++) + quicklistPushHead(ql, genstr("hello", i), 32); + for (int i = 0; i < 5000; i++) { + unsigned char *data; + size_t sz; + long long lv; + int ret = quicklistPop(ql, QUICKLIST_HEAD, &data, &sz, &lv); + if (i < 500) { + assert(ret == 1); + assert(data != NULL); + assert(sz == 32); + if (strcmp(genstr("hello", 499 - i), (char *)data)) { + int size = sz; + ERR("Pop'd value (%.*s) didn't equal original value " + "(%s)", + size, data, genstr("hello", 499 - i)); + } + zfree(data); + } else { + assert(ret == 0); + } + } + ql_verify(ql, 0, 0, 0, 0); + quicklistRelease(ql); + } + + TEST("iterate forward over 500 list") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistSetFill(ql, 32); + for (int i = 0; i < 500; i++) + quicklistPushHead(ql, genstr("hello", i), 32); + quicklistIter *iter = quicklistGetIterator(ql, AL_START_HEAD); + quicklistEntry entry; + int i = 499, count = 0; + while (quicklistNext(iter, &entry)) { + char *h = genstr("hello", i); + if (strcmp((char *)entry.value, h)) + ERR("value [%s] didn't match [%s] at position %d", + entry.value, h, i); + i--; + count++; + } + if (count != 500) + ERR("Didn't iterate over exactly 500 elements (%d)", i); + ql_verify(ql, 16, 500, 20, 32); + ql_release_iterator(iter); + quicklistRelease(ql); + } + + TEST("iterate reverse over 500 list") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistSetFill(ql, 32); + for (int i = 0; i < 500; i++) + quicklistPushHead(ql, genstr("hello", i), 32); + quicklistIter *iter = quicklistGetIterator(ql, AL_START_TAIL); + quicklistEntry entry; + int i = 0; + while (quicklistNext(iter, &entry)) { + char *h = genstr("hello", i); + if (strcmp((char *)entry.value, h)) + ERR("value [%s] didn't match [%s] at position %d", + entry.value, h, i); + i++; + } + if (i != 500) + ERR("Didn't iterate over exactly 500 elements (%d)", i); + ql_verify(ql, 16, 500, 20, 32); + ql_release_iterator(iter); + quicklistRelease(ql); + } + + TEST("insert after 1 element") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistPushHead(ql, "hello", 6); + quicklistEntry entry; + iter = quicklistGetIteratorEntryAtIdx(ql, 0, &entry); + quicklistInsertAfter(iter, &entry, "abc", 4); + ql_release_iterator(iter); + ql_verify(ql, 1, 2, 2, 2); + + /* verify results */ + iter = quicklistGetIteratorEntryAtIdx(ql, 0, &entry); + int sz = entry.sz; + if (strncmp((char *)entry.value, "hello", 5)) { + ERR("Value 0 didn't match, instead got: %.*s", sz, + entry.value); + } + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, 1, &entry); + sz = entry.sz; + if (strncmp((char *)entry.value, "abc", 3)) { + ERR("Value 1 didn't match, instead got: %.*s", sz, + entry.value); + } + ql_release_iterator(iter); + quicklistRelease(ql); + } + + TEST("insert before 1 element") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistPushHead(ql, "hello", 6); + quicklistEntry entry; + iter = quicklistGetIteratorEntryAtIdx(ql, 0, &entry); + quicklistInsertBefore(iter, &entry, "abc", 4); + ql_release_iterator(iter); + ql_verify(ql, 1, 2, 2, 2); + + /* verify results */ + iter = quicklistGetIteratorEntryAtIdx(ql, 0, &entry); + int sz = entry.sz; + if (strncmp((char *)entry.value, "abc", 3)) { + ERR("Value 0 didn't match, instead got: %.*s", sz, + entry.value); + } + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, 1, &entry); + sz = entry.sz; + if (strncmp((char *)entry.value, "hello", 5)) { + ERR("Value 1 didn't match, instead got: %.*s", sz, + entry.value); + } + ql_release_iterator(iter); + quicklistRelease(ql); + } + + TEST("insert head while head node is full") { + quicklist *ql = quicklistNew(4, options[_i]); + for (int i = 0; i < 10; i++) + quicklistPushTail(ql, genstr("hello", i), 6); + quicklistSetFill(ql, -1); + quicklistEntry entry; + iter = quicklistGetIteratorEntryAtIdx(ql, -10, &entry); + char buf[4096] = {0}; + quicklistInsertBefore(iter, &entry, buf, 4096); + ql_release_iterator(iter); + ql_verify(ql, 4, 11, 1, 2); + quicklistRelease(ql); + } + + TEST("insert tail while tail node is full") { + quicklist *ql = quicklistNew(4, options[_i]); + for (int i = 0; i < 10; i++) + quicklistPushHead(ql, genstr("hello", i), 6); + quicklistSetFill(ql, -1); + quicklistEntry entry; + iter = quicklistGetIteratorEntryAtIdx(ql, -1, &entry); + char buf[4096] = {0}; + quicklistInsertAfter(iter, &entry, buf, 4096); + ql_release_iterator(iter); + ql_verify(ql, 4, 11, 2, 1); + quicklistRelease(ql); + } + + TEST_DESC("insert once in elements while iterating at compress %d", + options[_i]) { + for (int f = 0; f < fill_count; f++) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + quicklistPushTail(ql, "abc", 3); + quicklistSetFill(ql, 1); + quicklistPushTail(ql, "def", 3); /* force to unique node */ + quicklistSetFill(ql, f); + quicklistPushTail(ql, "bob", 3); /* force to reset for +3 */ + quicklistPushTail(ql, "foo", 3); + quicklistPushTail(ql, "zoo", 3); + + itrprintr(ql, 0); + /* insert "bar" before "bob" while iterating over list. */ + quicklistIter *iter = quicklistGetIterator(ql, AL_START_HEAD); + quicklistEntry entry; + while (quicklistNext(iter, &entry)) { + if (!strncmp((char *)entry.value, "bob", 3)) { + /* Insert as fill = 1 so it spills into new node. */ + quicklistInsertBefore(iter, &entry, "bar", 3); + break; /* didn't we fix insert-while-iterating? */ + } + } + ql_release_iterator(iter); + itrprintr(ql, 0); + + /* verify results */ + iter = quicklistGetIteratorEntryAtIdx(ql, 0, &entry); + int sz = entry.sz; + + if (strncmp((char *)entry.value, "abc", 3)) + ERR("Value 0 didn't match, instead got: %.*s", sz, + entry.value); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, 1, &entry); + if (strncmp((char *)entry.value, "def", 3)) + ERR("Value 1 didn't match, instead got: %.*s", sz, + entry.value); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, 2, &entry); + if (strncmp((char *)entry.value, "bar", 3)) + ERR("Value 2 didn't match, instead got: %.*s", sz, + entry.value); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, 3, &entry); + if (strncmp((char *)entry.value, "bob", 3)) + ERR("Value 3 didn't match, instead got: %.*s", sz, + entry.value); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, 4, &entry); + if (strncmp((char *)entry.value, "foo", 3)) + ERR("Value 4 didn't match, instead got: %.*s", sz, + entry.value); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, 5, &entry); + if (strncmp((char *)entry.value, "zoo", 3)) + ERR("Value 5 didn't match, instead got: %.*s", sz, + entry.value); + ql_release_iterator(iter); + quicklistRelease(ql); + } + } + + TEST_DESC("insert [before] 250 new in middle of 500 elements at compress %d", + options[_i]) { + for (int f = 0; f < fill_count; f++) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + for (int i = 0; i < 500; i++) + quicklistPushTail(ql, genstr("hello", i), 32); + for (int i = 0; i < 250; i++) { + quicklistEntry entry; + iter = quicklistGetIteratorEntryAtIdx(ql, 250, &entry); + quicklistInsertBefore(iter, &entry, genstr("abc", i), 32); + ql_release_iterator(iter); + } + if (fills[f] == 32) + ql_verify(ql, 25, 750, 32, 20); + quicklistRelease(ql); + } + } + + TEST_DESC("insert [after] 250 new in middle of 500 elements at compress %d", + options[_i]) { + for (int f = 0; f < fill_count; f++) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + for (int i = 0; i < 500; i++) + quicklistPushHead(ql, genstr("hello", i), 32); + for (int i = 0; i < 250; i++) { + quicklistEntry entry; + iter = quicklistGetIteratorEntryAtIdx(ql, 250, &entry); + quicklistInsertAfter(iter, &entry, genstr("abc", i), 32); + ql_release_iterator(iter); + } + + if (ql->count != 750) + ERR("List size not 750, but rather %ld", ql->count); + + if (fills[f] == 32) + ql_verify(ql, 26, 750, 20, 32); + quicklistRelease(ql); + } + } + + TEST("duplicate empty list") { + quicklist *ql = quicklistNew(-2, options[_i]); + ql_verify(ql, 0, 0, 0, 0); + quicklist *copy = quicklistDup(ql); + ql_verify(copy, 0, 0, 0, 0); + quicklistRelease(ql); + quicklistRelease(copy); + } + + TEST("duplicate list of 1 element") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistPushHead(ql, genstr("hello", 3), 32); + ql_verify(ql, 1, 1, 1, 1); + quicklist *copy = quicklistDup(ql); + ql_verify(copy, 1, 1, 1, 1); + quicklistRelease(ql); + quicklistRelease(copy); + } + + TEST("duplicate list of 500") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistSetFill(ql, 32); + for (int i = 0; i < 500; i++) + quicklistPushHead(ql, genstr("hello", i), 32); + ql_verify(ql, 16, 500, 20, 32); + + quicklist *copy = quicklistDup(ql); + ql_verify(copy, 16, 500, 20, 32); + quicklistRelease(ql); + quicklistRelease(copy); + } + + for (int f = 0; f < fill_count; f++) { + TEST_DESC("index 1,200 from 500 list at fill %d at compress %d", f, + options[_i]) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + for (int i = 0; i < 500; i++) + quicklistPushTail(ql, genstr("hello", i + 1), 32); + quicklistEntry entry; + iter = quicklistGetIteratorEntryAtIdx(ql, 1, &entry); + if (strcmp((char *)entry.value, "hello2") != 0) + ERR("Value: %s", entry.value); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, 200, &entry); + if (strcmp((char *)entry.value, "hello201") != 0) + ERR("Value: %s", entry.value); + ql_release_iterator(iter); + quicklistRelease(ql); + } + + TEST_DESC("index -1,-2 from 500 list at fill %d at compress %d", + fills[f], options[_i]) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + for (int i = 0; i < 500; i++) + quicklistPushTail(ql, genstr("hello", i + 1), 32); + quicklistEntry entry; + iter = quicklistGetIteratorEntryAtIdx(ql, -1, &entry); + if (strcmp((char *)entry.value, "hello500") != 0) + ERR("Value: %s", entry.value); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, -2, &entry); + if (strcmp((char *)entry.value, "hello499") != 0) + ERR("Value: %s", entry.value); + ql_release_iterator(iter); + quicklistRelease(ql); + } + + TEST_DESC("index -100 from 500 list at fill %d at compress %d", + fills[f], options[_i]) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + for (int i = 0; i < 500; i++) + quicklistPushTail(ql, genstr("hello", i + 1), 32); + quicklistEntry entry; + iter = quicklistGetIteratorEntryAtIdx(ql, -100, &entry); + if (strcmp((char *)entry.value, "hello401") != 0) + ERR("Value: %s", entry.value); + ql_release_iterator(iter); + quicklistRelease(ql); + } + + TEST_DESC("index too big +1 from 50 list at fill %d at compress %d", + fills[f], options[_i]) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + for (int i = 0; i < 50; i++) + quicklistPushTail(ql, genstr("hello", i + 1), 32); + quicklistEntry entry; + int sz = entry.sz; + iter = quicklistGetIteratorEntryAtIdx(ql, 50, &entry); + if (iter) + ERR("Index found at 50 with 50 list: %.*s", sz, + entry.value); + ql_release_iterator(iter); + quicklistRelease(ql); + } + } + + TEST("delete range empty list") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistDelRange(ql, 5, 20); + ql_verify(ql, 0, 0, 0, 0); + quicklistRelease(ql); + } + + TEST("delete range of entire node in list of one node") { + quicklist *ql = quicklistNew(-2, options[_i]); + for (int i = 0; i < 32; i++) + quicklistPushHead(ql, genstr("hello", i), 32); + ql_verify(ql, 1, 32, 32, 32); + quicklistDelRange(ql, 0, 32); + ql_verify(ql, 0, 0, 0, 0); + quicklistRelease(ql); + } + + TEST("delete range of entire node with overflow counts") { + quicklist *ql = quicklistNew(-2, options[_i]); + for (int i = 0; i < 32; i++) + quicklistPushHead(ql, genstr("hello", i), 32); + ql_verify(ql, 1, 32, 32, 32); + quicklistDelRange(ql, 0, 128); + ql_verify(ql, 0, 0, 0, 0); + quicklistRelease(ql); + } + + TEST("delete middle 100 of 500 list") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistSetFill(ql, 32); + for (int i = 0; i < 500; i++) + quicklistPushTail(ql, genstr("hello", i + 1), 32); + ql_verify(ql, 16, 500, 32, 20); + quicklistDelRange(ql, 200, 100); + ql_verify(ql, 14, 400, 32, 20); + quicklistRelease(ql); + } + + TEST("delete less than fill but across nodes") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistSetFill(ql, 32); + for (int i = 0; i < 500; i++) + quicklistPushTail(ql, genstr("hello", i + 1), 32); + ql_verify(ql, 16, 500, 32, 20); + quicklistDelRange(ql, 60, 10); + ql_verify(ql, 16, 490, 32, 20); + quicklistRelease(ql); + } + + TEST("delete negative 1 from 500 list") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistSetFill(ql, 32); + for (int i = 0; i < 500; i++) + quicklistPushTail(ql, genstr("hello", i + 1), 32); + ql_verify(ql, 16, 500, 32, 20); + quicklistDelRange(ql, -1, 1); + ql_verify(ql, 16, 499, 32, 19); + quicklistRelease(ql); + } + + TEST("delete negative 1 from 500 list with overflow counts") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistSetFill(ql, 32); + for (int i = 0; i < 500; i++) + quicklistPushTail(ql, genstr("hello", i + 1), 32); + ql_verify(ql, 16, 500, 32, 20); + quicklistDelRange(ql, -1, 128); + ql_verify(ql, 16, 499, 32, 19); + quicklistRelease(ql); + } + + TEST("delete negative 100 from 500 list") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistSetFill(ql, 32); + for (int i = 0; i < 500; i++) + quicklistPushTail(ql, genstr("hello", i + 1), 32); + quicklistDelRange(ql, -100, 100); + ql_verify(ql, 13, 400, 32, 16); + quicklistRelease(ql); + } + + TEST("delete -10 count 5 from 50 list") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistSetFill(ql, 32); + for (int i = 0; i < 50; i++) + quicklistPushTail(ql, genstr("hello", i + 1), 32); + ql_verify(ql, 2, 50, 32, 18); + quicklistDelRange(ql, -10, 5); + ql_verify(ql, 2, 45, 32, 13); + quicklistRelease(ql); + } + + TEST("numbers only list read") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistPushTail(ql, "1111", 4); + quicklistPushTail(ql, "2222", 4); + quicklistPushTail(ql, "3333", 4); + quicklistPushTail(ql, "4444", 4); + ql_verify(ql, 1, 4, 4, 4); + quicklistEntry entry; + iter = quicklistGetIteratorEntryAtIdx(ql, 0, &entry); + if (entry.longval != 1111) + ERR("Not 1111, %lld", entry.longval); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, 1, &entry); + if (entry.longval != 2222) + ERR("Not 2222, %lld", entry.longval); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, 2, &entry); + if (entry.longval != 3333) + ERR("Not 3333, %lld", entry.longval); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, 3, &entry); + if (entry.longval != 4444) + ERR("Not 4444, %lld", entry.longval); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, 4, &entry); + if (iter) + ERR("Index past elements: %lld", entry.longval); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, -1, &entry); + if (entry.longval != 4444) + ERR("Not 4444 (reverse), %lld", entry.longval); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, -2, &entry); + if (entry.longval != 3333) + ERR("Not 3333 (reverse), %lld", entry.longval); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, -3, &entry); + if (entry.longval != 2222) + ERR("Not 2222 (reverse), %lld", entry.longval); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, -4, &entry); + if (entry.longval != 1111) + ERR("Not 1111 (reverse), %lld", entry.longval); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, -5, &entry); + if (iter) + ERR("Index past elements (reverse), %lld", entry.longval); + ql_release_iterator(iter); + quicklistRelease(ql); + } + + TEST("numbers larger list read") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistSetFill(ql, 32); + char num[32]; + long long nums[5000]; + for (int i = 0; i < 5000; i++) { + nums[i] = -5157318210846258176 + i; + int sz = ll2string(num, sizeof(num), nums[i]); + quicklistPushTail(ql, num, sz); + } + quicklistPushTail(ql, "xxxxxxxxxxxxxxxxxxxx", 20); + quicklistEntry entry; + for (int i = 0; i < 5000; i++) { + iter = quicklistGetIteratorEntryAtIdx(ql, i, &entry); + if (entry.longval != nums[i]) + ERR("[%d] Not longval %lld but rather %lld", i, nums[i], + entry.longval); + entry.longval = 0xdeadbeef; + ql_release_iterator(iter); + } + iter = quicklistGetIteratorEntryAtIdx(ql, 5000, &entry); + if (strncmp((char *)entry.value, "xxxxxxxxxxxxxxxxxxxx", 20)) + ERR("String val not match: %s", entry.value); + ql_verify(ql, 157, 5001, 32, 9); + ql_release_iterator(iter); + quicklistRelease(ql); + } + + TEST("numbers larger list read B") { + quicklist *ql = quicklistNew(-2, options[_i]); + quicklistPushTail(ql, "99", 2); + quicklistPushTail(ql, "98", 2); + quicklistPushTail(ql, "xxxxxxxxxxxxxxxxxxxx", 20); + quicklistPushTail(ql, "96", 2); + quicklistPushTail(ql, "95", 2); + quicklistReplaceAtIndex(ql, 1, "foo", 3); + quicklistReplaceAtIndex(ql, -1, "bar", 3); + quicklistRelease(ql); + } + + TEST_DESC("lrem test at compress %d", options[_i]) { + for (int f = 0; f < fill_count; f++) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + char *words[] = {"abc", "foo", "bar", "foobar", "foobared", + "zap", "bar", "test", "foo"}; + char *result[] = {"abc", "foo", "foobar", "foobared", + "zap", "test", "foo"}; + char *resultB[] = {"abc", "foo", "foobar", + "foobared", "zap", "test"}; + for (int i = 0; i < 9; i++) + quicklistPushTail(ql, words[i], strlen(words[i])); + + /* lrem 0 bar */ + quicklistIter *iter = quicklistGetIterator(ql, AL_START_HEAD); + quicklistEntry entry; + int i = 0; + while (quicklistNext(iter, &entry)) { + if (quicklistCompare(&entry, (unsigned char *)"bar", 3)) { + quicklistDelEntry(iter, &entry); + } + i++; + } + ql_release_iterator(iter); + + /* check result of lrem 0 bar */ + iter = quicklistGetIterator(ql, AL_START_HEAD); + i = 0; + while (quicklistNext(iter, &entry)) { + /* Result must be: abc, foo, foobar, foobared, zap, test, + * foo */ + int sz = entry.sz; + if (strncmp((char *)entry.value, result[i], entry.sz)) { + ERR("No match at position %d, got %.*s instead of %s", + i, sz, entry.value, result[i]); + } + i++; + } + ql_release_iterator(iter); + + quicklistPushTail(ql, "foo", 3); + + /* lrem -2 foo */ + iter = quicklistGetIterator(ql, AL_START_TAIL); + i = 0; + int del = 2; + while (quicklistNext(iter, &entry)) { + if (quicklistCompare(&entry, (unsigned char *)"foo", 3)) { + quicklistDelEntry(iter, &entry); + del--; + } + if (!del) + break; + i++; + } + ql_release_iterator(iter); + + /* check result of lrem -2 foo */ + /* (we're ignoring the '2' part and still deleting all foo + * because + * we only have two foo) */ + iter = quicklistGetIterator(ql, AL_START_TAIL); + i = 0; + size_t resB = sizeof(resultB) / sizeof(*resultB); + while (quicklistNext(iter, &entry)) { + /* Result must be: abc, foo, foobar, foobared, zap, test, + * foo */ + int sz = entry.sz; + if (strncmp((char *)entry.value, resultB[resB - 1 - i], + sz)) { + ERR("No match at position %d, got %.*s instead of %s", + i, sz, entry.value, resultB[resB - 1 - i]); + } + i++; + } + + ql_release_iterator(iter); + quicklistRelease(ql); + } + } + + TEST_DESC("iterate reverse + delete at compress %d", options[_i]) { + for (int f = 0; f < fill_count; f++) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + quicklistPushTail(ql, "abc", 3); + quicklistPushTail(ql, "def", 3); + quicklistPushTail(ql, "hij", 3); + quicklistPushTail(ql, "jkl", 3); + quicklistPushTail(ql, "oop", 3); + + quicklistEntry entry; + quicklistIter *iter = quicklistGetIterator(ql, AL_START_TAIL); + int i = 0; + while (quicklistNext(iter, &entry)) { + if (quicklistCompare(&entry, (unsigned char *)"hij", 3)) { + quicklistDelEntry(iter, &entry); + } + i++; + } + ql_release_iterator(iter); + + if (i != 5) + ERR("Didn't iterate 5 times, iterated %d times.", i); + + /* Check results after deletion of "hij" */ + iter = quicklistGetIterator(ql, AL_START_HEAD); + i = 0; + char *vals[] = {"abc", "def", "jkl", "oop"}; + while (quicklistNext(iter, &entry)) { + if (!quicklistCompare(&entry, (unsigned char *)vals[i], + 3)) { + ERR("Value at %d didn't match %s\n", i, vals[i]); + } + i++; + } + ql_release_iterator(iter); + quicklistRelease(ql); + } + } + + TEST_DESC("iterator at index test at compress %d", options[_i]) { + for (int f = 0; f < fill_count; f++) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + char num[32]; + long long nums[5000]; + for (int i = 0; i < 760; i++) { + nums[i] = -5157318210846258176 + i; + int sz = ll2string(num, sizeof(num), nums[i]); + quicklistPushTail(ql, num, sz); + } + + quicklistEntry entry; + quicklistIter *iter = + quicklistGetIteratorAtIdx(ql, AL_START_HEAD, 437); + int i = 437; + while (quicklistNext(iter, &entry)) { + if (entry.longval != nums[i]) + ERR("Expected %lld, but got %lld", entry.longval, + nums[i]); + i++; + } + ql_release_iterator(iter); + quicklistRelease(ql); + } + } + + TEST_DESC("ltrim test A at compress %d", options[_i]) { + for (int f = 0; f < fill_count; f++) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + char num[32]; + long long nums[5000]; + for (int i = 0; i < 32; i++) { + nums[i] = -5157318210846258176 + i; + int sz = ll2string(num, sizeof(num), nums[i]); + quicklistPushTail(ql, num, sz); + } + if (fills[f] == 32) + ql_verify(ql, 1, 32, 32, 32); + /* ltrim 25 53 (keep [25,32] inclusive = 7 remaining) */ + quicklistDelRange(ql, 0, 25); + quicklistDelRange(ql, 0, 0); + quicklistEntry entry; + for (int i = 0; i < 7; i++) { + iter = quicklistGetIteratorEntryAtIdx(ql, i, &entry); + if (entry.longval != nums[25 + i]) + ERR("Deleted invalid range! Expected %lld but got " + "%lld", + entry.longval, nums[25 + i]); + ql_release_iterator(iter); + } + if (fills[f] == 32) + ql_verify(ql, 1, 7, 7, 7); + quicklistRelease(ql); + } + } + + TEST_DESC("ltrim test B at compress %d", options[_i]) { + for (int f = 0; f < fill_count; f++) { + /* Force-disable compression because our 33 sequential + * integers don't compress and the check always fails. */ + quicklist *ql = quicklistNew(fills[f], QUICKLIST_NOCOMPRESS); + char num[32]; + long long nums[5000]; + for (int i = 0; i < 33; i++) { + nums[i] = i; + int sz = ll2string(num, sizeof(num), nums[i]); + quicklistPushTail(ql, num, sz); + } + if (fills[f] == 32) + ql_verify(ql, 2, 33, 32, 1); + /* ltrim 5 16 (keep [5,16] inclusive = 12 remaining) */ + quicklistDelRange(ql, 0, 5); + quicklistDelRange(ql, -16, 16); + if (fills[f] == 32) + ql_verify(ql, 1, 12, 12, 12); + quicklistEntry entry; + + iter = quicklistGetIteratorEntryAtIdx(ql, 0, &entry); + if (entry.longval != 5) + ERR("A: longval not 5, but %lld", entry.longval); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, -1, &entry); + if (entry.longval != 16) + ERR("B! got instead: %lld", entry.longval); + quicklistPushTail(ql, "bobobob", 7); + ql_release_iterator(iter); + + iter = quicklistGetIteratorEntryAtIdx(ql, -1, &entry); + int sz = entry.sz; + if (strncmp((char *)entry.value, "bobobob", 7)) + ERR("Tail doesn't match bobobob, it's %.*s instead", + sz, entry.value); + ql_release_iterator(iter); + + for (int i = 0; i < 12; i++) { + iter = quicklistGetIteratorEntryAtIdx(ql, i, &entry); + if (entry.longval != nums[5 + i]) + ERR("Deleted invalid range! Expected %lld but got " + "%lld", + entry.longval, nums[5 + i]); + ql_release_iterator(iter); + } + quicklistRelease(ql); + } + } + + TEST_DESC("ltrim test C at compress %d", options[_i]) { + for (int f = 0; f < fill_count; f++) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + char num[32]; + long long nums[5000]; + for (int i = 0; i < 33; i++) { + nums[i] = -5157318210846258176 + i; + int sz = ll2string(num, sizeof(num), nums[i]); + quicklistPushTail(ql, num, sz); + } + if (fills[f] == 32) + ql_verify(ql, 2, 33, 32, 1); + /* ltrim 3 3 (keep [3,3] inclusive = 1 remaining) */ + quicklistDelRange(ql, 0, 3); + quicklistDelRange(ql, -29, + 4000); /* make sure not loop forever */ + if (fills[f] == 32) + ql_verify(ql, 1, 1, 1, 1); + quicklistEntry entry; + iter = quicklistGetIteratorEntryAtIdx(ql, 0, &entry); + if (entry.longval != -5157318210846258173) + ERROR; + ql_release_iterator(iter); + quicklistRelease(ql); + } + } + + TEST_DESC("ltrim test D at compress %d", options[_i]) { + for (int f = 0; f < fill_count; f++) { + quicklist *ql = quicklistNew(fills[f], options[_i]); + char num[32]; + long long nums[5000]; + for (int i = 0; i < 33; i++) { + nums[i] = -5157318210846258176 + i; + int sz = ll2string(num, sizeof(num), nums[i]); + quicklistPushTail(ql, num, sz); + } + if (fills[f] == 32) + ql_verify(ql, 2, 33, 32, 1); + quicklistDelRange(ql, -12, 3); + if (ql->count != 30) + ERR("Didn't delete exactly three elements! Count is: %lu", + ql->count); + quicklistRelease(ql); + } + } + + long long stop = mstime(); + runtime[_i] = stop - start; + } + + /* Run a longer test of compression depth outside of primary test loop. */ + int list_sizes[] = {250, 251, 500, 999, 1000}; + long long start = mstime(); + int list_count = accurate ? (int)(sizeof(list_sizes) / sizeof(*list_sizes)) : 1; + for (int list = 0; list < list_count; list++) { + TEST_DESC("verify specific compression of interior nodes with %d list ", + list_sizes[list]) { + for (int f = 0; f < fill_count; f++) { + for (int depth = 1; depth < 40; depth++) { + /* skip over many redundant test cases */ + quicklist *ql = quicklistNew(fills[f], depth); + for (int i = 0; i < list_sizes[list]; i++) { + quicklistPushTail(ql, genstr("hello TAIL", i + 1), 64); + quicklistPushHead(ql, genstr("hello HEAD", i + 1), 64); + } + + for (int step = 0; step < 2; step++) { + /* test remove node */ + if (step == 1) { + for (int i = 0; i < list_sizes[list] / 2; i++) { + unsigned char *data; + assert(quicklistPop(ql, QUICKLIST_HEAD, &data, + NULL, NULL)); + zfree(data); + assert(quicklistPop(ql, QUICKLIST_TAIL, &data, + NULL, NULL)); + zfree(data); + } + } + quicklistNode *node = ql->head; + unsigned int low_raw = ql->compress; + unsigned int high_raw = ql->len - ql->compress; + + for (unsigned int at = 0; at < ql->len; + at++, node = node->next) { + if (at < low_raw || at >= high_raw) { + if (node->encoding != QUICKLIST_NODE_ENCODING_RAW) { + ERR("Incorrect compression: node %d is " + "compressed at depth %d ((%u, %u); total " + "nodes: %lu; size: %zu)", + at, depth, low_raw, high_raw, ql->len, + node->sz); + } + } else { + if (node->encoding != QUICKLIST_NODE_ENCODING_LZF) { + ERR("Incorrect non-compression: node %d is NOT " + "compressed at depth %d ((%u, %u); total " + "nodes: %lu; size: %zu; attempted: %d)", + at, depth, low_raw, high_raw, ql->len, + node->sz, node->attempted_compress); + } + } + } + } + + quicklistRelease(ql); + } + } + } + } + long long stop = mstime(); + + printf("\n"); + for (size_t i = 0; i < option_count; i++) + printf("Test Loop %02d: %0.2f seconds.\n", options[i], + (float)runtime[i] / 1000); + printf("Compressions: %0.2f seconds.\n", (float)(stop - start) / 1000); + printf("\n"); + + TEST("bookmark get updated to next item") { + quicklist *ql = quicklistNew(1, 0); + quicklistPushTail(ql, "1", 1); + quicklistPushTail(ql, "2", 1); + quicklistPushTail(ql, "3", 1); + quicklistPushTail(ql, "4", 1); + quicklistPushTail(ql, "5", 1); + assert(ql->len==5); + /* add two bookmarks, one pointing to the node before the last. */ + assert(quicklistBookmarkCreate(&ql, "_dummy", ql->head->next)); + assert(quicklistBookmarkCreate(&ql, "_test", ql->tail->prev)); + /* test that the bookmark returns the right node, delete it and see that the bookmark points to the last node */ + assert(quicklistBookmarkFind(ql, "_test") == ql->tail->prev); + assert(quicklistDelRange(ql, -2, 1)); + assert(quicklistBookmarkFind(ql, "_test") == ql->tail); + /* delete the last node, and see that the bookmark was deleted. */ + assert(quicklistDelRange(ql, -1, 1)); + assert(quicklistBookmarkFind(ql, "_test") == NULL); + /* test that other bookmarks aren't affected */ + assert(quicklistBookmarkFind(ql, "_dummy") == ql->head->next); + assert(quicklistBookmarkFind(ql, "_missing") == NULL); + assert(ql->len==3); + quicklistBookmarksClear(ql); /* for coverage */ + assert(quicklistBookmarkFind(ql, "_dummy") == NULL); + quicklistRelease(ql); + } + + TEST("bookmark limit") { + int i; + quicklist *ql = quicklistNew(1, 0); + quicklistPushHead(ql, "1", 1); + for (i=0; ihead)); + /* when all bookmarks are used, creation fails */ + assert(!quicklistBookmarkCreate(&ql, "_test", ql->head)); + /* delete one and see that we can now create another */ + assert(quicklistBookmarkDelete(ql, "0")); + assert(quicklistBookmarkCreate(&ql, "_test", ql->head)); + /* delete one and see that the rest survive */ + assert(quicklistBookmarkDelete(ql, "_test")); + for (i=1; ihead); + /* make sure the deleted ones are indeed gone */ + assert(!quicklistBookmarkFind(ql, "0")); + assert(!quicklistBookmarkFind(ql, "_test")); + quicklistRelease(ql); + } + + if (flags & REDIS_TEST_LARGE_MEMORY) { + TEST("compress and decompress quicklist listpack node") { + quicklistNode *node = quicklistCreateNode(); + node->entry = lpNew(0); + + /* Just to avoid triggering the assertion in __quicklistCompressNode(), + * it disables the passing of quicklist head or tail node. */ + node->prev = quicklistCreateNode(); + node->next = quicklistCreateNode(); + + /* Create a rand string */ + size_t sz = (1 << 25); /* 32MB per one entry */ + unsigned char *s = zmalloc(sz); + randstring(s, sz); + + /* Keep filling the node, until it reaches 1GB */ + for (int i = 0; i < 32; i++) { + node->entry = lpAppend(node->entry, s, sz); + quicklistNodeUpdateSz(node); + + long long start = mstime(); + assert(__quicklistCompressNode(node)); + assert(__quicklistDecompressNode(node)); + printf("Compress and decompress: %zu MB in %.2f seconds.\n", + node->sz/1024/1024, (float)(mstime() - start) / 1000); + } + + zfree(s); + zfree(node->prev); + zfree(node->next); + zfree(node->entry); + zfree(node); + } + +#if ULONG_MAX >= 0xffffffffffffffff + TEST("compress and decomress quicklist plain node large than UINT32_MAX") { + size_t sz = (1ull << 32); + unsigned char *s = zmalloc(sz); + randstring(s, sz); + memcpy(s, "helloworld", 10); + memcpy(s + sz - 10, "1234567890", 10); + + quicklistNode *node = __quicklistCreatePlainNode(s, sz); + + /* Just to avoid triggering the assertion in __quicklistCompressNode(), + * it disables the passing of quicklist head or tail node. */ + node->prev = quicklistCreateNode(); + node->next = quicklistCreateNode(); + + long long start = mstime(); + assert(__quicklistCompressNode(node)); + assert(__quicklistDecompressNode(node)); + printf("Compress and decompress: %zu MB in %.2f seconds.\n", + node->sz/1024/1024, (float)(mstime() - start) / 1000); + + assert(memcmp(node->entry, "helloworld", 10) == 0); + assert(memcmp(node->entry + sz - 10, "1234567890", 10) == 0); + zfree(node->prev); + zfree(node->next); + zfree(node->entry); + zfree(node); + } +#endif + } + + if (!err) + printf("ALL TESTS PASSED!\n"); + else + ERR("Sorry, not all tests passed! In fact, %d tests failed.", err); + + return err; +} +#endif -- cgit v1.2.3